CN105619082A - Continuous grooving machine - Google Patents

Abstract

The invention provides a continuous grooving machine which is easy to operate, convenient to use, high in accuracy and high in machining efficiency. The continuous grooving machine comprises a machine frame, a first supporting cylinder, a second supporting cylinder, a vertical face cutting device, a positioning assembly, a grooving device, a reversing wheel and a driving motor. The first supporting cylinder, the second supporting cylinder and the reversing wheel are all rotatably connected with the machine frame. The axis (the axis means the axial line around which the first supporting cylinder rotates, and hereinafter the meaning of axis is not repeated anymore) of the first supporting cylinder, the axis of the second supporting cylinder and the axis of the reversing wheel are parallel to one another and perpendicular to the long axis of the machine frame. An installing table of the grooving device is fixedly connected with the machine frame. An installing table of the positioning assembly is fixedly connected with the machine frame. The driving motor is connected with the second supporting cylinder through a transmission mechanism.

Description

A kind of groover continuously

Technical field

The present invention relates to a kind of machining equipment, especially relate to a kind of groover continuously.

Background technology

In machinery industry, it is frequently necessary to make escutcheon, as made the escutcheon for top for gas range being carried out outer bound edge, when making in process, first the metal ornament strip of certain length is washed away several breach of stepping down, then carries out vertical edge bending, then carry out shaped as frame bending and form it into the outer package escutcheon shape matched with described stove panel, weld again, polishing. But because ornamental strip has certain thickness, it is after vertical edge bending, the radius of the arc chord angle of formation is relatively big, has both wasted material, and precision is also poor.

Summary of the invention

Both having wasted material for overcoming prior art that ornamental strip is carried out vertical edge bending, the defect that precision is also poor, the present invention provides a kind of simple to operate, easy to use, precision is high, working (machining) efficiency is high continuous groover.

This invention address that the technical scheme of technical problem is: a kind of groover continuously, including frame, the first support cylinder, the second support cylinder, facade topping machanism, positioning component, grooving apparatus, reverse wheel, drive motor. Described first support cylinder, the second support cylinder, reverse wheel are all connected with described gantry rotation, described first support cylinder axle center (described axle center refer to described first support cylinder rotate time institute around axis, similar below), second support the axle center of cylinder, reverse wheel axle center parallel to each other. And it is all vertical with described frame major axis. Grooving apparatus erecting bed is fixing with described frame to be connected, and positioning component erecting bed is fixing with described frame to be connected. Described drive motor supports cylinder by drive mechanism with described second and is connected.

Described facade topping machanism is slidably mounted on the milling cutter installing rack with some milling cutter slide rails by the milling cutter fixed station being secured to connect. Shake the hand and described milling cutter installing rack is rotationally connected, and threaded with described milling cutter fixed station.

Further, described milling cutter installing rack is fixing with described frame is connected. Described milling cutter slide rail is parallel to each other with the axle center of described first support cylinder.

Described polishing device is fixing with emery wheel fixed station to be connected, and the front portion of emery wheel fixed station is rotationally connected by emery wheel front axle and emery wheel erecting bed front portion. The rear portion of emery wheel fixed station is provided with some nut A, and some emery wheel adjusting screw rods are threadeded with described nut A, and the lower end of described emery wheel adjusting screw rod is fixing with emery wheel rear axle to be connected, and described emery wheel rear axle is connected with described emery wheel erecting bed posterior rotation. The bottom of described emery wheel erecting bed is fixing connects some emery wheel feed screw nuts, and described emery wheel feed screw nut is connected with the some emery wheel wire rod threads being fixedly connected on described frame.

Further, described emery wheel screw mandrel is parallel to each other with the axle center of described first support cylinder.

Described burnishing device is fixing with throwing wheel fixed station to be connected, and the front portion throwing wheel fixed station is rotationally connected with throwing wheel erecting bed front portion by throwing wheel front axle. The rear portion of throwing wheel fixed station is provided with some nut B, and some throwings wheel adjusting screw rod is threadeded with described nut B, and the lower end of described throwing wheel adjusting screw rod is fixing with throwing wheel rear axle to be connected, and described throwing wheel rear axle is connected with described throwing wheel erecting bed posterior rotation. The described bottom throwing wheel erecting bed is fixed and is connected some throwing wheel feed screw nuts, and described throwing wheel feed screw nut is connected with the some throwing wheel wire rod threads being fixedly connected on described frame.

Further, described throwing wheel screw mandrel is parallel to each other with the axle center of described first support cylinder.

Described positioning component includes the fixing jacking block in several location being fixedly connected on described positioning component erecting bed and some movable top block assemblies, and the fixing jacking block in each described location includes the location jacking block being fixedly connected on described positioning component erecting bed and the location jacking block bearing being rotationally connected with described location jacking block. The line of the axle center of some described location jacking block bearing and the intersection point of described positioning component erecting bed is on the same line. Each described movable top block assembly includes the lower lock block being fixedly connected on positioning component erecting bed and fixes the some movable locating devices being connected and upper holder block with lower lock block. Described lower lock block is fixedly connected with several briquetting guide rails, and upper holder block is provided with several guide holes corresponding with some described briquetting guide rails. Described upper holder block is by described guide hole and described briquetting guide rail and described lower lock block mobile link. The same side of described upper holder block is rotationally connected several pinch roller bearings, and the axle center of several described pinch roller bearings is on the same plane parallel with described positioning component erecting bed. Each described movable locating device includes the shell A of one end open, it is installed on the spring A in described shell A, movable jacking block A50 and the movable jacking block bearing A being rotationally connected with described movable jacking block A50 one end, the dual-side of described shell A is provided with movable jacking block stopper slot A, when described spring A is in certain compressive state, activity jacking block limited screw A is threadeded with described movable jacking block A. Described movable jacking block A50 is made not fall out described shell A.

The fixing jacking block of fluting is fixedly connected on grooving apparatus erecting bed, several fluting location rollers are rotationally connected with on the fixing jacking block of described fluting, fixed block is fixedly connected on grooving apparatus erecting bed, some fluting activity jacking blocks are fixedly connected on described fixed block, the shell B of one end open is included described in each fluting activity jacking block, it is installed on the spring B in shell B and movable jacking block B, described movable jacking block B one end is rotationally connected a movable jacking block bearing B, the dual-side of described shell B is provided with movable jacking block stopper slot B, when described spring B is in certain squeezed state, activity jacking block limited screw B is threadeded with described movable jacking block B. described movable jacking block B is made not fall out described shell B. some tool rests are fixedly connected on described grooving apparatus erecting bed, and each described tool rest all has corresponding knife rest to be slidably connected with it, and the described tool rest all has a knife rest up-down adjustment wheel to be rotationally connected with it, and threaded with corresponding knife rest. each knife rest is provided with some cutter grooves, and knife bar is fixing with cutter groove to be connected. cutter head is connected to the lower end of described knife bar.

Principles of the invention is, with described first, the ornamental strip of rolling is supportted cylinder and is connected, and the free-end of rolling ornamental strip is successively by being connected with described second support cylinder after positioning component, reverse wheel, grooving apparatus. In ornamental strip connection procedure, its need to by positioning component time, first raise upper holder block, ornamental strip is positioned between the fixing jacking block in some location and some movable top block assemblies location, owing to movable locating device is equipped with spring A, so being gripped between positioner and movable locating device by ornamental strip, then putting down upper holder block, ornamental strip being clamped between pinch roller bearing and positioning component erecting bed. When ornamental strip need to be inserted grooving apparatus, knife rest is heightened by knife rest up-down adjustment wheel, ornamental strip is placed between some fluting location rollers and some movable jacking block bearing B, due to the effect of spring B, so ornamental strip being gripped between fluting location roller and movable jacking block bearing B. After ornamental strip connects, by the bright adjustment facade topping machanism of hands to the position needed, and adjust height and the angle of polishing device and burnishing device so that it is the ornamental strip after cleaved can be polished and polishing operation. Regulated the degree of depth of grooving apparatus by knife rest up-down adjustment wheel, make the degree of depth of fluting meet the requirements. After controlling device start, drive motor drives described second support cylinder to rotate, ornamental strip is rolled up gradually and is supportted cylinder to second, in ornamental strip moving process, ornamental strip is cut by facade topping machanism, the crude inclined-plane of ornamental strip of row cutting is polished outer reason by polishing device, and the inclined-plane of row polishing is polished outer reason by burnishing device. Ornamental strip is carried out fluting operation by grooving apparatus simultaneously. Due to the described second continuous rotation supportting cylinder, therefore ornamental strip is constantly involved in described second support cylinder, until all of decoration silver lap supports on cylinder described second, in above process, ornamental strip also carries out inclined-plane cutting, polishing, polishing and work of slotting continuously continuously. After completing, shutdown, support, from described second, the ornamental strip taking off rolling cylinder. When making escutcheon, to make an escutcheon, the ornamental strip being cut on the above-mentioned inclined-plane of row, polish, polish and slotting takes certain length, wash away several breach of stepping down, then vertical edge bending is carried out, carry out shaped as frame bending again and form it into the outer package escutcheon matched with described stove panel, then weld, polishing. Made its arc chord angle radius of escutcheon is less, has both saved material, and precision is also better. And make outward appearance more beautiful.

Accompanying drawing explanation

Fig. 1 is embodiment of the present invention axonometric chart.

Fig. 2 is embodiment of the present invention facade topping machanism axonometric chart.

Fig. 3 is embodiment of the present invention positioner axonometric chart.

Fig. 4 is embodiment of the present invention positioner partial perspective view.

Fig. 5 is embodiment of the present invention local device partial perspective view (upper holder block raised state).

Fig. 6 is embodiment of the present invention movable locating device axonometric chart.

Fig. 7 is embodiment of the present invention movable locating device axonometric chart (part enclosure A does not draw).

Fig. 8 is the fixing jacking block device axonometric chart in embodiment of the present invention location alive.

Fig. 9 is embodiment of the present invention polishing device axonometric chart.

Figure 10 is embodiment of the present invention burnishing device axonometric chart.

Figure 11 is embodiment of the present invention grooving apparatus axonometric chart.

Figure 12 is embodiment of the present invention workflow schematic diagram one.

Figure 13 is embodiment of the present invention workflow schematic diagram two.

Figure 14 is embodiment of the present invention workflow schematic diagram three.

In figure: 1, frame; 2, reverse wheel; 3, grooving apparatus; 4, the second support cylinder; 5, burnishing device; 6, polishing device; 7, facade topping machanism; 8, the first support cylinder; 9, milling cutter installing rack; 10, hands handle; 11, milling cutter fixed station; 12, milling cutter slide rail; 13, cutter motor; 14, milling cutter; 15, emery wheel; 16, grinding wheel motor; 17, emery wheel adjusting screw rod; 18, emery wheel fixed station; 19, emery wheel erecting bed; 20, positioning component erecting bed; 21, upper holder block; 22, the fixing jacking block in location; 23, lower lock block; 24, briquetting guide rail; 25, pinch roller bearing; 26, movable jacking block bearing A; 27, shell A; 28, spring A; 29, movable jacking block stopper slot; 30, movable jacking block limited screw A; 31 throw wheel; 32, turbin generator is thrown; 33, wheel adjusting screw rod is thrown; 34, wheel fixed station is thrown; 35, wheel erecting bed is thrown; 36, the fixing jacking block of fluting; 37, fluting location roller; 38, knife bar; 39, knife rest; 40, tool rest; 41, knife rest up-down adjustment wheel; 42, grooving apparatus erecting bed; 43, cutter groove; 44, shell B; 45, fixed block; 46, movable jacking block bearing B; 47, location jacking block; 48, location jacking block bearing; 49, ornamental strip; 50, movable jacking block A.

Detailed description of the invention

A kind of groover continuously, supports cylinder 8, second including frame 1, first and supports cylinder 4, facade topping machanism 7, positioning component, grooving apparatus 3, reverse wheel 2, drive motor. Described first support cylinder 8, second supports cylinder 4, reverse wheel 2 and is all rotationally connected with described frame 1, described first support cylinder 8 axle center (described axle center refer to this described first support cylinder rotate time institute around axis, similar below), second support the axle center of cylinder 4, reverse wheel 2 axle center parallel to each other. And it is all vertical with described frame 1 major axis. Grooving apparatus erecting bed 42 is fixing with described frame 1 to be connected, and positioning component erecting bed 20 is fixing with described frame 1 to be connected. Described drive motor supports cylinder 4 by drive mechanism with described second and is connected.

Described facade topping machanism 7 is slidably mounted on the milling cutter installing rack 9 with some milling cutter slide rails 12 by the milling cutter fixed station 11 being secured to connect. Shake the hand and described milling cutter installing rack 9 is rotationally connected, and threaded with described milling cutter fixed station 11.

Further, described milling cutter installing rack 9 is fixing with described frame 1 is connected. Described milling cutter slide rail 12 is parallel to each other with the axle center of described first support cylinder 8.

Described polishing device 6 is fixing with emery wheel fixed station 18 to be connected, and the front portion of emery wheel fixed station 18 is rotationally connected by emery wheel front axle and emery wheel erecting bed 19 front portion. The rear portion of emery wheel fixed station 18 is provided with some nut A, and some emery wheel adjusting screw rods 17 are threadeded with described nut A, and the lower end of described emery wheel adjusting screw rod 17 is fixing with emery wheel rear axle to be connected, and described emery wheel rear axle is connected with described emery wheel erecting bed 19 posterior rotation. The bottom of described emery wheel erecting bed 19 is fixing connects some emery wheel feed screw nuts, and described emery wheel feed screw nut is connected with the some emery wheel wire rod threads being fixedly connected on described frame 1.

Further, described emery wheel screw mandrel is parallel to each other with the axle center of described first support cylinder 8.

Described burnishing device 5 is fixing with throwing wheel fixed station 34 to be connected, and the front portion throwing wheel fixed station 34 is rotationally connected with throwing wheel erecting bed 35 front portion by throwing wheel front axle. The rear portion of throwing wheel fixed station 34 is provided with some nut B, and some throwings wheel adjusting screw rod 33 is threadeded with described nut B, and the lower end of described throwing wheel adjusting screw rod 33 is fixing with throwing wheel rear axle to be connected, and described throwing wheel rear axle is connected with described throwing wheel erecting bed 35 posterior rotation. Described bottom fixing connection theing throw wheel erecting bed 35 throws wheel feed screw nut, and described throwing wheel feed screw nut is connected with the some wheel wire rod threads of throwing being fixedly connected on described frame 1.

Further, described throwing wheel screw mandrel is parallel to each other with the axle center of described first support cylinder 8.

Described positioning component includes the fixing jacking block 22 in several location being fixedly connected on described positioning component erecting bed 20 and some movable top block assemblies, and the fixing jacking block 22 in each described location includes the location jacking block 47 being fixedly connected on described positioning component erecting bed 20 and the location jacking block bearing 48 being rotationally connected with described location jacking block 47. The line of the axle center of some described location jacking block bearing 48 and the intersection point of described positioning component erecting bed 20 is on the same line. Each described movable top block assembly includes the lower lock block 23 being fixedly connected on positioning component erecting bed 20 and the fixing some movable locating devices being connected of lower lock block 23 and upper holder block 21. Described lower lock block 23 is fixedly connected with several briquetting guide rails 24, and upper holder block 21 is provided with several guide holes corresponding with some described briquetting guide rails 24. Described upper holder block 21 is by described guide hole and described briquetting guide rail 24 and described lower lock block 23 mobile link. The same side of described upper holder block 21 is rotationally connected several pinch roller bearings 25, and the axle center of several described pinch roller bearings 25 is on the same plane parallel with described positioning component erecting bed 20. Each described movable locating device includes the shell A27 of one end open, it is installed on the spring A28 in described shell A27, movable jacking block A and the movable jacking block bearing A26 being rotationally connected with described movable jacking block A one end, the dual-side of described shell A27 is provided with movable jacking block stopper slot A29, when described spring A28 is in certain compressive state, activity jacking block limited screw A30 is threadeded with described movable jacking block A. Described movable jacking block A is made not fall out described shell A27.

The fixing jacking block 36 of fluting is fixedly connected on grooving apparatus erecting bed 42, several fluting location rollers 37 are rotationally connected with on the fixing jacking block 36 of described fluting, fixed block 45 is fixedly connected on grooving apparatus erecting bed 42, some fluting activity jacking blocks are fixedly connected on described fixed block 45, the shell B44 of one end open is included described in each fluting activity jacking block, it is installed on the spring B in shell B44 and movable jacking block B, described movable jacking block B one end is rotationally connected a movable jacking block bearing B46, the dual-side of described shell B44 is provided with movable jacking block stopper slot B, when described spring B is in certain squeezed state, activity jacking block limited screw B is threadeded with described movable jacking block B. described movable jacking block B is made not fall out described shell B44. some tool rests 40 are fixedly connected on described grooving apparatus erecting bed 42, each described tool rest 40 all has corresponding knife rest 39 to be slidably connected with it, the described tool rest 40 all has a knife rest up-down adjustment wheel 41 to be rotationally connected with it, and threaded with corresponding knife rest 39. each knife rest 39 is provided with some cutter grooves 43, and knife bar 38 is fixing with cutter groove 43 to be connected. cutter head is connected to the lower end of described knife bar 38.

Claims (5)

1. a continuous groover, including frame (1), first support cylinder (8), second support cylinder (4), facade topping machanism (7), positioning component, grooving apparatus (3), reverse wheel (2), drive motor, it is characterized in that, described first support cylinder (8), second support cylinder (4), reverse wheel (2) is all rotationally connected with described frame (1), grooving apparatus erecting bed (42) is fixing with described frame (1) to be connected, positioning component erecting bed (20) is fixing with described frame (1) to be connected, described drive motor supports cylinder (4) by drive mechanism with described second and is connected, described facade topping machanism (7) is slidably mounted on the milling cutter installing rack (9) with some milling cutter slide rails (12) by the milling cutter fixed station (11) being secured to connect, shake the hand and described milling cutter installing rack (9) is rotationally connected, and threaded with described milling cutter fixed station (11), described polishing device (6) is fixing with emery wheel fixed station (18) to be connected, the front portion of emery wheel fixed station (18) is rotationally connected by emery wheel front axle and emery wheel erecting bed (19) front portion, the rear portion of emery wheel fixed station (18) is provided with some nut A, some emery wheel adjusting screw rods (17) threaded with described nut A, the lower end of described emery wheel adjusting screw rod (17) is fixing with emery wheel rear axle to be connected, described emery wheel rear axle is connected with described emery wheel erecting bed (19) posterior rotation, the bottom of described emery wheel erecting bed (19) is fixing connects some emery wheel feed screw nuts, described emery wheel feed screw nut is connected with the some emery wheel wire rod threads being fixedly connected on described frame (1), described burnishing device (5) is fixing with throwing wheel fixed station (34) to be connected, the front portion throwing wheel fixed station (34) is rotationally connected by throwing to take turns front axle and throw wheel erecting bed (35) front portion, the rear portion throwing wheel fixed station (34) is provided with some nut B, some wheels adjusting screw rod (33) of throwing are threadeded with described nut B, the described lower end throwing wheel adjusting screw rod (33) is fixed with throwing wheel rear axle and is connected, described wheel rear axle of throwing is connected with described wheel erecting bed (35) posterior rotation of throwing, the described some throwing wheel feed screw nuts of the fixing connection in bottom throwing wheel erecting bed (35), the described some wheel wire rod threads of throwing throwing wheel feed screw nut and be fixedly connected on described frame (1) are connected, described positioning component includes the fixing jacking block (22) in several location being fixedly connected on described positioning component erecting bed (20) and some movable top block assemblies, and the fixing jacking block (22) in each described location includes the location jacking block (47) being fixedly connected on described positioning component erecting bed (20) and location jacking block bearing (48) being rotationally connected with described location jacking block (47), each described movable top block assembly includes the lower lock block (23) being fixedly connected on positioning component erecting bed (20) and the fixing some movable locating devices being connected of lower lock block (23) and upper holder block (21), described lower lock block (23) is fixedly connected with several briquetting guide rails (24), upper holder block (21) is provided with several guide holes corresponding with some described briquetting guide rails (24), described upper holder block (21) is by described guide hole and described briquetting guide rail (24) and described lower lock block (23) mobile link, the same side of described upper holder block (21) is rotationally connected several pinch roller bearings (25), each described movable locating device includes the shell A (27) of one end open, it is installed on the spring A (28) in described shell A (27), movable jacking block A(50) and with described movable jacking block A(50) movable jacking block bearing A (26) that is rotationally connected of one end, the dual-side of described shell A (27) is provided with movable jacking block stopper slot A (29), when described spring A (28) is in certain compressive state, activity jacking block limited screw A (30) is threadeded with described movable jacking block A, make described movable jacking block A(50) do not fall out described shell A (27),The fixing jacking block (36) of fluting is fixedly connected on grooving apparatus erecting bed (42), several flutings location roller (37) are rotationally connected with on the fixing jacking block (36) of described fluting, fixed block (45) is fixedly connected on grooving apparatus erecting bed (42), some fluting activity jacking blocks are fixedly connected on described fixed block (45), the shell B (44) of one end open is included described in each fluting activity jacking block, it is installed on the spring B in shell B (44) and movable jacking block B, described movable jacking block B one end is rotationally connected movable jacking block bearing B (46), the dual-side of described shell B (44) is provided with movable jacking block stopper slot B, when described spring B is in certain squeezed state, activity jacking block limited screw B is threadeded with described movable jacking block B, described movable jacking block B is made not fall out described shell B (44), some tool rests (40) are fixedly connected on described grooving apparatus erecting bed (42), each described tool rest (40) all has corresponding knife rest (39) to be slidably connected with it, the described tool rest (40) all has knife rest up-down adjustment wheel (41) to be rotationally connected with it, and it is threaded with corresponding knife rest (39), each knife rest (39) is provided with some cutter grooves (43), knife bar (38) is fixing with cutter groove (43) to be connected, cutter head is connected to the lower end of described knife bar (38).

2. the continuous groover of one according to claim 1, it is characterised in that described milling cutter installing rack (9) is fixing with described frame (1) to be connected.

3. the continuous groover of one according to claim 1 and 2, it is characterized in that, the axle center of described first support cylinder is vertical with described frame (1) major axis, described first support cylinder (8) axle center, second support cylinder (4) axle center, reverse wheel (2) axle center parallel to each other, described milling cutter slide rail (12) is parallel to each other with the axle center of described first support cylinder (8), described emery wheel screw mandrel is parallel to each other with the axle center of described first support cylinder (8), and described throwing wheel screw mandrel is parallel to each other with the axle center of described first support cylinder (8).

4. the continuous groover of one according to claim 1 and 2, it is characterised in that the line of the axle center of some described location jacking block bearing (48) and the intersection point of described positioning component erecting bed (20) is on the same line.

5. the continuous groover of one according to claim 1 and 2, it is characterised in that the axle center of several described pinch roller bearings (25) is on the same plane parallel with described positioning component erecting bed (20).