CN204413301U

CN204413301U - A kind of modified form magnesium ingot topping machanism

Info

Publication number: CN204413301U
Application number: CN201520025726.0U
Authority: CN
Inventors: 鲍永红; 朱新浩
Original assignee: Xinchang Rong Jin Machinery Co Ltd
Current assignee: Xinchang Rong Jin Machinery Co Ltd
Priority date: 2015-01-14
Filing date: 2015-01-14
Publication date: 2015-06-24
Anticipated expiration: 2025-01-14

Abstract

The utility model discloses a kind of modified form magnesium ingot topping machanism, comprise frame, Hydraulic Station, material-pulling device, feeding pressure mechanism, rotor, aggregate bin and motor, the front end of described frame is provided with rotor and aggregate bin, described aggregate bin is located at the below of rotor, described rotor is connected with motor-driven, the platform of described frame is provided with feeding pressure mechanism, described feeding pressure mechanism is near rotor, the platform rear portion of described frame is provided with material-pulling device, described Hydraulic Station is connected with material-pulling device and feeding pressure mechanism, compared with prior art, it is little that the utility model can run noise, stationarity is good, save time, wedge is removed convenient, cutting power can also be improved, be not easy breaking, reduce production cost, handling ease, structure is simple.

Description

A kind of modified form magnesium ingot topping machanism

[technical field]

The utility model relates to the technical field of magnesium ingot cutting equipment, particularly a kind of technical field of modified form magnesium ingot topping machanism.

[background technology]

Magnesium chips and magnesium powder answer the fields such as the production of catalyst, RMgBr, essence and flavoring agent production to have a wide range of applications in smelting iron and steel, chemistry side.Therefore, magnesium chips and magnesium powder are produced and are also had the wide market demand.

At present, the structure of the Magnesium chips machine of domestic production is substantially identical.Be placed in track by magnesium ingot, with hydraulic pressure materials device, magnesium ingot compressed, by hydrofeed, magnesium ingot is pushed to, on the rotor of rotation, by rotor, magnesium ingot be cut into magnesium chips.Of the prior art, Magnesium chips machine is in installation process, by magnesium chips support on cement flooring, first with wedge, it is levelling, then fix wedge with cement, adopt above-mentioned installation method, equipment runs that noise is large, and stationarity is poor, and can produce after needing after installation etc. to the cement solidifies, thus lose time, wedge is removed inconvenient.

Forming cutter rotor of the prior art, it processes helicla flute and push type broach screw hole according to certain rules on cylindrical rotor parent, with screw by triangle contour alloy cutter head clamping on roller parent, there is following defect in above-mentioned rotor: 1, because the bottom surface of the shaping cutter head of triangle is attached on spiral fluted side.The helicla flute of the dress cutter that cylindrical rotor parent is processed, spiral fluted side is unavoidable is helicoid.Therefore, the bottom surface of triangle forming cutter cannot be close to the helicla flute side on rotor parent, can not get enough holder loads and cutting power is diminished, thus cutting power is poor.2, the hole of diameter 5 millimeters is had in the middle part of the triangle forming cutter due to use.The cross-sectional area of cutter is reduced, and Shear ability is poor.Again owing to only having the hole of diameter 5 millimeters in the middle part of triangle forming cutter, for clamping cutter head, therefore; rotor parent can only be processed the pressure screw hole of M5, often there will be screw hole slide fastener in using, and the cutter head of damage cannot be changed; rotor is caused to scrap, thus easy breaking, increase production cost.

[utility model content]

The purpose of this utility model solves the problems of the prior art exactly, and propose a kind of modified form magnesium ingot topping machanism, can run noise little, stationarity is good, saves time, and wedge is removed convenient, can also improve cutting power, be not easy breaking, reduces production cost.

For achieving the above object, the utility model proposes a kind of modified form magnesium ingot topping machanism, comprise frame, Hydraulic Station, material-pulling device, feeding pressure mechanism, rotor, aggregate bin and motor, the front end of described frame is provided with rotor and aggregate bin, described aggregate bin is located at the below of rotor, described rotor is connected with motor-driven, the platform of described frame is provided with feeding pressure mechanism, described feeding pressure mechanism is near rotor, the platform rear portion of described frame is provided with material-pulling device, described Hydraulic Station is connected with material-pulling device and feeding pressure mechanism, described frame comprises support body, platform, tool box, distribution box, holder, skewback and groove, the top of described support body is provided with platform, the bottom of described support body is provided with groove, skewback is provided with in described groove, the front-end and back-end of described support body are equipped with holder, the rear portion of described support body is provided with tool box and distribution box, the top in described tool box is provided with distribution box, described rotor comprises cylindrical knife roller body, some draw-in grooves, cutter, cushion block, fixing briquetting and fastening bolt, described draw-in groove is evenly distributed on the side of cylindrical knife roller body, one end of described draw-in groove is open, cutter and cushion block is provided with in described draw-in groove, cutter in described two adjacent draw-in grooves is longitudinally interspersed, cushion block in described two adjacent draw-in grooves is longitudinally interspersed, described cushion block and cutter are fixedly mounted in draw-in groove by fixing briquetting, described fixing briquetting is fixedly connected with cylindrical knife roller body by fastening bolt.

As preferably, the rear cell wall of described draw-in groove is tilted to the left, and the cross-sectional area of described draw-in groove is equal with the cross-sectional area of cushion block.

As preferably, described cutter comprises tool rest and cutter head, and described tool rest and cutter head are welded together, and described tool rest is provided with the coupling part of matching with draw-in groove.

As preferably, described fixing briquetting is provided with projection, and described projection circumferentially shape is evenly distributed on fixing briquetting, and described projection is corresponding with draw-in groove.

As preferably, the bottom surface of described groove is provided with ratchet, and described skewback is provided with ratchet on the face relative with the bottom surface of groove.

As preferably, described feeding pressure mechanism comprises keel shoe, the 3rd hydraulic cylinder, pressure roller and installing rack, and the upper end of described keel shoe is provided with the 3rd hydraulic cylinder, and the piston rod of described 3rd hydraulic cylinder is provided with installing rack, described installing rack is provided with pressure roller, and described Hydraulic Station is connected with the 3rd hydraulic cylinder.

As preferably, described material-pulling device comprises the first material-pulling device and second material-pulling device identical with the first material-pulling device structure, described first material-pulling device comprises the second hydraulic cylinder and clamping device, described Hydraulic Station is connected with the second hydraulic cylinder, described clamping device comprises push pedal, moving clip gripping arm, fixed clamping arm, first threaded rod, second threaded rod, attaching nut, top and shifting block, the rear end of described push pedal is provided with fixed clamping arm, described fixed clamping arm is provided with shifting block, the bottom of described moving clip gripping arm is provided with the through hole matched with push pedal, described moving clip gripping arm is provided with the first threaded rod, described fixed clamping arm is provided with the second threaded rod, described first threaded rod is connected with the second threaded rod by attaching nut, screw thread rotation direction on described second threaded rod is contrary with the screw thread rotation direction on the first threaded rod, described push pedal is provided with top between moving clip gripping arm and fixed clamping arm.

As preferably, describedly toply comprise body, adjusting screw(rod) and clamp nut, the lower end of described body is fixedly connected with push pedal, and described adjusting screw(rod) is threaded with body, and described adjusting screw(rod) is provided with clamp nut above body.

As preferably, the inner side of described moving clip gripping arm and fixed clamping arm is equipped with grip block, described grip block is provided with engaging lug, and the inner side of described moving clip gripping arm and fixed clamping arm is equipped with the hanger matched with engaging lug, together with described engaging lug and hanger are rotatably connected by bearing pin.

As preferably, the platform of described frame is provided with the first travel switch, second travel switch, the first travel switch and the second travel switch is provided with between feeding pressure mechanism and the first material-pulling device described in third trip switch and fourth line journey switch, described first travel switch is located at the dead ahead of the second travel switch, third trip switch and fourth line journey switch is provided with between described feeding pressure mechanism and the second material-pulling device, described third trip switch is located at the dead ahead of fourth line journey switch, described first travel switch, second travel switch, third trip switch and fourth line journey switch all by support installing on the platform of frame, described support is provided with slotted eye, described set bolt is fixedly connected with the platform of frame through slotted eye.

The beneficial effects of the utility model: the utility model is by being equipped with holder by the front-end and back-end of support body, support body is fixed with coordinating of holder by foundation bolt, the bottom of support body is provided with groove, the bottom surface of groove is provided with ratchet, skewback is provided with ratchet on the face relative with the bottom surface of groove, prevent skewback to shake at work groove by ratchet, do not need to be fixed skewback with cement, noise can be run little, stationarity is good, save time, wedge is removed convenient, draw-in groove is evenly distributed on the side of cylindrical knife roller body, one end of draw-in groove is open, cutter and cushion block is provided with in draw-in groove, cushion block and cutter are fixedly mounted in draw-in groove by fixing briquetting, fixing briquetting is fixedly connected with cylindrical knife roller body by fastening bolt, the contact area of cutter and draw-in groove can be increased, and avoid the drawback that a traditional cutter needs a screw fixing, cutting power can be improved, be not easy breaking, reduce production cost, handling ease, structure is simple.

Feature of the present utility model and advantage will be described in detail by reference to the accompanying drawings by embodiment.

[accompanying drawing explanation]

Fig. 1 is the structural representation of a kind of modified form magnesium ingot of the utility model topping machanism;

Fig. 2 is the top view of a kind of modified form magnesium ingot of the utility model topping machanism;

Fig. 3 is the side view of frame;

Fig. 4 is the enlarged drawing of A in Fig. 3;

Fig. 5 is the structural representation of clamping device;

Fig. 6 is the structural representation of rotor;

Fig. 7 is the side view of rotor.

In figure: 1-frame, 2-Hydraulic Station, 3-material-pulling device, 4-feeding pressure mechanism, 5-rotor, 6-aggregate bin, 7-motor, 8-support, 9-first travel switch, 10-second travel switch, 101-third trip switch, 102-fourth line journey switch, 81-slotted eye, 11-support body, 12-workbench, 13-tool box, 14-distribution box, 15-holder, 16-skewback, 17-groove, 31-first material-pulling device, 32-second material-pulling device, 311-second hydraulic cylinder, 312-clamping device, 41-keel shoe, 42-the 3rd hydraulic cylinder, 43-pressure roller, 44-installing rack, 51-cylindrical knife roller body, 52-draw-in groove, 53-cutter, 54-cushion block, 55-fixes briquetting, 56-fastening bolt, 531-tool rest, 532-cutter head, 551-is protruding, 5311-coupling part, 3121-push pedal, 3122-moving clip gripping arm, 3123-fixed clamping arm, 3124-first threaded rod, 3125-second threaded rod, 3126-attaching nut, 3127-is top, 3128-grip block, 3129-hanger, 31210-shifting block, 31281-engaging lug, 31271-body, 31272-adjusting screw(rod), 31273-clamp nut.

[detailed description of the invention]

Consult Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6 and Fig. 7, a kind of modified form magnesium ingot of the utility model topping machanism, comprise frame 1, Hydraulic Station 2, material-pulling device 3, feeding pressure mechanism 4, rotor 5, aggregate bin 6 and motor 7, the front end of described frame 1 is provided with rotor 5 and aggregate bin 6, described aggregate bin 6 is located at the below of rotor 5, described rotor 5 is in transmission connection with motor 7, the platform of described frame 1 is provided with feeding pressure mechanism 4, described feeding pressure mechanism 4 is near rotor 5, the platform rear portion of described frame 1 is provided with material-pulling device 3, described Hydraulic Station 2 is connected with material-pulling device 3 and feeding pressure mechanism 4, described frame 1 comprises support body 11, platform 12, tool box 13, distribution box 14, holder 15, skewback 16 and groove 17, the top of described support body 11 is provided with platform 12, the bottom of described support body 11 is provided with groove 17, skewback 16 is provided with in described groove 17, the front-end and back-end of described support body 11 are equipped with holder 15, the rear portion of described support body 11 is provided with tool box 13 and distribution box 14, the top in described tool box 13 is provided with distribution box 14, described rotor 5 comprises cylindrical knife roller body 51, some draw-in grooves 52, cutter 53, cushion block 54, fixing briquetting 55 and fastening bolt 56, described draw-in groove 52 is evenly distributed on the side of cylindrical knife roller body 51, one end of described draw-in groove 52 is open, cutter 53 and cushion block 54 is provided with in described draw-in groove 52, cutter 53 in described two adjacent draw-in grooves 52 is longitudinally interspersed, cushion block 54 in described two adjacent draw-in grooves 52 is longitudinally interspersed, described cushion block 54 and cutter 53 are fixedly mounted in draw-in groove 52 by fixing briquetting 55, described fixing briquetting 55 is fixedly connected with cylindrical knife roller body 51 by fastening bolt 56, the rear cell wall of described draw-in groove 52 is tilted to the left, the cross-sectional area of described draw-in groove 52 is equal with the cross-sectional area of cushion block 54, described cutter 53 comprises tool rest 531 and cutter head 532, described tool rest 531 is welded together with cutter head 532, described tool rest 531 is provided with the coupling part 5311 of matching with draw-in groove 52, described fixing briquetting 55 is provided with protruding 551, described protruding 551 circumferentially shape be evenly distributed on fixing briquetting 55, described protruding 551 corresponding with draw-in groove 52, the bottom surface of described groove 17 is provided with ratchet, described skewback 16 is provided with ratchet on the face relative with the bottom surface of groove 17, described feeding pressure mechanism 4 comprises keel shoe 41, 3rd hydraulic cylinder 42, pressure roller 43 and installing rack 44, the upper end of described keel shoe 41 is provided with the 3rd hydraulic cylinder 42, the piston rod of described 3rd hydraulic cylinder 42 is provided with installing rack 44, described installing rack 44 is provided with pressure roller 43, described Hydraulic Station 2 is connected with the 3rd hydraulic cylinder 42, described material-pulling device 3 comprises the first material-pulling device 31 and second material-pulling device 32 identical with the first material-pulling device 31 structure, described first material-pulling device 31 comprises the second hydraulic cylinder 311 and clamping device 312, described Hydraulic Station 2 is connected with the second hydraulic cylinder 311, described clamping device 312 comprises push pedal 3121, moving clip gripping arm 3122, fixed clamping arm 3123, first threaded rod 3124, second threaded rod 3125, attaching nut 3126, top 3127 and shifting block 31210, the rear end of described push pedal 3121 is provided with fixed clamping arm 3123, described fixed clamping arm 3123 is provided with shifting block 31210, the bottom of described moving clip gripping arm 3122 is provided with the through hole matched with push pedal 3121, described moving clip gripping arm 3122 is provided with the first threaded rod 3124, described fixed clamping arm 3123 is provided with the second threaded rod 3125, described first threaded rod 3124 is connected with the second threaded rod 3125 by attaching nut 3126, screw thread rotation direction on described second threaded rod 3125 is contrary with the screw thread rotation direction on the first threaded rod 3124, described push pedal 3121 is provided with top 3127 between moving clip gripping arm 3122 and fixed clamping arm 3123, described top 3127 comprise top 3127 comprises body 31271, adjusting screw(rod) 31272 and clamp nut 31273, the lower end of described body 31271 is fixedly connected with push pedal 3121, described adjusting screw(rod) 31272 is threaded with body 31271, described adjusting screw(rod) 31272 is provided with clamp nut 31273 above body 31271.

Utility model works process:

A kind of modified form magnesium ingot of the utility model topping machanism in the course of the work, starter motor 7 drives rotor 5 to rotate, promote to advance by the clamping of the first material-pulling device 31 pairs of magnesium ingots, when the shifting block 31210 of the first material-pulling device 31 hits the second travel switch 10, feeding pressure mechanism 4 works, pressure roller 43 presses down and is compressed by magnesium ingot, then start to cut, when the shifting block 31210 of the first material-pulling device 31 hits the first travel switch 9, cut and stop, the clamping device 312 of the first material-pulling device 31 is return, pressure roller 43 rises, when the shifting block 31210 of the first material-pulling device 31 return hit the second travel switch 10 time, second material-pulling device 32 promotes magnesium ingot and starts working, when the shifting block 31210 of the second material-pulling device 32 hits fourth line journey switch 102, feeding pressure mechanism 4 works, pressure roller 43 presses down and is compressed by magnesium ingot, then start to cut, on the first material-pulling device 31, load onto magnesium ingot simultaneously, when the shifting block 31210 of the second material-pulling device 32 hits third trip switch 101, cut and stop, the clamping device 312 of the second material-pulling device 32 is return, pressure roller 43 rises, when the shifting block 31210 of the second material-pulling device 32 return hit fourth line journey switch 102 time, first material-pulling device 31 is started working, so repeatedly, clamping device 312 in operation, according to the width of magnesium ingot, the first threaded rod 3124 and the second threaded rod 3125 is made to enter attaching nut 3126 by the nut 3126 that is rotatably connected, first threaded rod 3124 pulls moving clip gripping arm 3122 to draw close to fixed clamping arm 3123 and clamps magnesium ingot, according to the gradient of the rear end of magnesium ingot, adjust the length of top 3127, grip block 3128 is made to clamp magnesium ingot, and ensure that the stub bar after cutting is as far as possible the shortest, compared with prior art, noise can be run little, stationarity is good, save time, wedge is removed convenient, cutting power can also be improved, be not easy breaking, reduce production cost, handling ease, structure is simple.

Above-described embodiment is to explanation of the present utility model, is not to restriction of the present utility model, anyly all belongs to protection domain of the present utility model to the scheme after the utility model simple transformation.

Claims

1. a modified form magnesium ingot topping machanism, it is characterized in that: comprise frame (1), Hydraulic Station (2), material-pulling device (3), feeding pressure mechanism (4), rotor (5), aggregate bin (6) and motor (7), the front end of described frame (1) is provided with rotor (5) and aggregate bin (6), described aggregate bin (6) is located at the below of rotor (5), described rotor (5) and motor (7) are in transmission connection, the platform of described frame (1) is provided with feeding pressure mechanism (4), described feeding pressure mechanism (4) is near rotor (5), the platform rear portion of described frame (1) is provided with material-pulling device (3), described Hydraulic Station (2) is connected with material-pulling device (3) and feeding pressure mechanism (4), described frame (1) comprises support body (11), platform (12), tool box (13), distribution box (14), holder (15), skewback (16) and groove (17), the top of described support body (11) is provided with platform (12), the bottom of described support body (11) is provided with groove (17), skewback (16) is provided with in described groove (17), the front-end and back-end of described support body (11) are equipped with holder (15), the rear portion of described support body (11) is provided with tool box (13) and distribution box (14), the top in described tool box (13) is provided with distribution box (14), described rotor (5) comprises cylindrical knife roller body (51), some draw-in grooves (52), cutter (53), cushion block (54), fixing briquetting (55) and fastening bolt (56), described draw-in groove (52) is evenly distributed on the side of cylindrical knife roller body (51), one end of described draw-in groove (52) is open, cutter (53) and cushion block (54) is provided with in described draw-in groove (52), cutter (53) in described two adjacent draw-in grooves (52) is longitudinally interspersed, cushion block (54) in described two adjacent draw-in grooves (52) is longitudinally interspersed, described cushion block (54) and cutter (53) are fixedly mounted in draw-in groove (52) by fixing briquetting (55), described fixing briquetting (55) is fixedly connected with cylindrical knife roller body (51) by fastening bolt (56).

2. a kind of modified form magnesium ingot topping machanism as claimed in claim 1, is characterized in that: the rear cell wall of described draw-in groove (52) is tilted to the left, and the cross-sectional area of described draw-in groove (52) is equal with the cross-sectional area of cushion block (54).

3. a kind of modified form magnesium ingot topping machanism as claimed in claim 1, it is characterized in that: described cutter (53) comprises tool rest (531) and cutter head (532), described tool rest (531) and cutter head (532) are welded together, and described tool rest (531) is provided with the coupling part (5311) of matching with draw-in groove (52).

4. a kind of modified form magnesium ingot topping machanism as claimed in claim 1, it is characterized in that: described fixing briquetting (55) is provided with projection (551), described projection (551) circumferentially shape is evenly distributed on fixing briquetting (55), and described projection (551) is corresponding with draw-in groove (52).

5. a kind of modified form magnesium ingot topping machanism as claimed in claim 1, is characterized in that: the bottom surface of described groove (17) is provided with ratchet, and described skewback (16) is provided with ratchet on the face relative with the bottom surface of groove (17).

6. a kind of modified form magnesium ingot topping machanism as claimed in claim 1, it is characterized in that: described feeding pressure mechanism (4) comprises keel shoe (41), the 3rd hydraulic cylinder (42), pressure roller (43) and installing rack (44), the upper end of described keel shoe (41) is provided with the 3rd hydraulic cylinder (42), the piston rod of described 3rd hydraulic cylinder (42) is provided with installing rack (44), described installing rack (44) is provided with pressure roller (43), and described Hydraulic Station (2) is connected with the 3rd hydraulic cylinder (42).

7. a kind of modified form magnesium ingot topping machanism as claimed in claim 1, it is characterized in that: described material-pulling device (3) comprises the first material-pulling device (31) and second material-pulling device (32) identical with the first material-pulling device (31) structure, described first material-pulling device (31) comprises the second hydraulic cylinder (311) and clamping device (312), described Hydraulic Station (2) is connected with the second hydraulic cylinder (311), described clamping device (312) comprises push pedal (3121), moving clip gripping arm (3122), fixed clamping arm (3123), first threaded rod (3124), second threaded rod (3125), attaching nut (3126), top (3127) and shifting block (31210), the rear end of described push pedal (3121) is provided with fixed clamping arm (3123), described fixed clamping arm (3123) is provided with shifting block (31210), the bottom of described moving clip gripping arm (3122) is provided with the through hole matched with push pedal (3121), described moving clip gripping arm (3122) is provided with the first threaded rod (3124), described fixed clamping arm (3123) is provided with the second threaded rod (3125), described first threaded rod (3124) is connected with the second threaded rod (3125) by attaching nut (3126), screw thread rotation direction on described second threaded rod (3125) is contrary with the screw thread rotation direction on the first threaded rod (3124), described push pedal (3121) is provided with top (3127) between moving clip gripping arm (3122) and fixed clamping arm (3123).

8. a kind of modified form magnesium ingot topping machanism as claimed in claim 7, it is characterized in that: described top (3127) comprise top (3127) and comprise body (31271), adjusting screw(rod) (31272) and clamp nut (31273), the lower end of described body (31271) is fixedly connected with push pedal (3121), described adjusting screw(rod) (31272) is threaded with body (31271), and described adjusting screw(rod) (31272) is provided with clamp nut (31273) in the top of body (31271).

9. a kind of modified form magnesium ingot topping machanism as claimed in claim 7, it is characterized in that: the inner side of described moving clip gripping arm (3122) and fixed clamping arm (3123) is equipped with grip block (3128), described grip block (3128) is provided with engaging lug (31281), the inner side of described moving clip gripping arm (3122) and fixed clamping arm (3123) is equipped with the hanger (3129) matched with engaging lug (31281), together with described engaging lug (31281) and hanger (3129) are rotatably connected by bearing pin.

10. a kind of modified form magnesium ingot topping machanism as claimed in any one of claims 1-9 wherein, it is characterized in that: the platform of described frame (1) is provided with the first travel switch (9), second travel switch (10), third trip switch (101) and fourth line journey switch (102), the first travel switch (9) and the second travel switch (10) is provided with between described feeding pressure mechanism (4) and the first material-pulling device (31), described first travel switch (9) is located at the dead ahead of the second travel switch (10), third trip switch (101) and fourth line journey switch (102) is provided with between described feeding pressure mechanism (4) and the second material-pulling device (32), described third trip switch (101) is located at the dead ahead of fourth line journey switch (102), described first travel switch (9), second travel switch (10), third trip switch (101) and fourth line journey switch (102) are all arranged on the platform of frame (1) by support (8), described support (8) is provided with slotted eye (81), described set bolt is fixedly connected with the platform of frame (1) through slotted eye (81).