CN113233406A

CN113233406A - Electric oil drum rapid turnover equipment

Info

Publication number: CN113233406A
Application number: CN202110498770.3A
Authority: CN
Inventors: 陈云飞
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-30
Filing date: 2021-04-30
Publication date: 2021-08-10
Anticipated expiration: 2041-04-30
Also published as: CN113233406B

Abstract

Electric oil drum quick turnover equipment is mainly applied to electric equipment for quickly turning over oil drums. < quick tipping arrangement of electrodynamic type oil drum > main points and usage: 1< electrodynamic type oil drum equipment of tumbleing fast > adopts the structure that machinery and rechargeable big torsion lithium electricity brushless spanner combined together, drives the speed reducer through rechargeable big torsion lithium electricity brushless spanner, accomplishes oil drum turnover work fast. 2. The rechargeable large-torque lithium-ion battery brushless wrench can rotate forwards and reversely, can adjust speed and torque, and is convenient and fast to use. 3 < quick tipping arrangement of electrodynamic type oil drum > can tip the heavy load oil drum that less than or equal to 1.5 tons. No matter use the overhead traveling crane, still use fork truck < electrodynamic type oil drum equipment of tumbleing fast >, the oil drum can accomplish 360 degrees whole week and overturn in succession. 4 < electrodynamic type oil drum equipment of tumbleing fast > can not be restricted by the place, as long as the operating mode that fork truck can go in theory, the work of tumbleing of completion oil drum that all can convenient and fast safety.

Description

Electric oil drum rapid turnover equipment

The technical field is as follows:

the electric equipment is applied to quickly overturning the oil drum (figure 1 mark 1).

Background art:

the oil drum 1 mark 1 used in the factory at present is divided into an open type and a closed type. No matter dumping sundries or waste materials by using the open type oil drum figure 1 mark 1 or dumping oil materials by using the closed type oil drum figure 1 mark 1, basically dumping work can only be completed by utilizing an overhead traveling crane and a forklift in a workshop in an auxiliary mode. But empty when 1 heavy load of oil drum figure 1 sign, only can adopt the standard hoist and mount utensil in the market, produced the difficult control of adjustment of direction and angle when 1 of oil drum figure empties from this. For example, when the heavy-duty oil drum figure 1 mark 1 is toppled over, the hoisting belt is easy to slip. Therefore, the operation is difficult and unsafe!

And (II) because no proper auxiliary equipment is provided, most of the situations are limited by sites, and the oil drum dumping task shown in the figure 1 of the oil drum can be completed only by using a crown block or a forklift in a factory building. The forklift is used to dump oil drum figure 1 mark 1 outdoors, the dumping task is complex to operate, and the dumping task is not easy to control and unsafe, so that the dumping task of the oil drum figure 1 mark 1 is more convenient and safer, and the more rapid and better!

The invention content is as follows:

the invention relates to an electric oil drum rapid turnover device which can successfully solve the defects:

the electric oil drum rapid overturning device adopts a structure that machinery is combined with a rechargeable large-torque lithium battery brushless wrench (shown as a mark 16 in a figure 2-1), and drives a speed reducer (shown as a mark 6 in a figure 2) through the rechargeable large-torque lithium battery brushless wrench (shown as a mark 16 in a figure 2-1), so that the overturning work of the oil drum shown as a mark 1 in the figure 1 is rapidly completed. < quick tipping equipment of electrodynamic type oil drum > can tip the heavy load oil drum picture 1 sign 1 of less than or equal to 1.5 tons. No matter use the overhead traveling crane, still use fork truck to use < electrodynamic type oil drum equipment of tumbleing fast >, the whole week that 360 degrees can all be accomplished to oil drum picture 1 sign 1 upset in succession.

(II) < electric type oil drum rapid turnover equipment > can not be limited by a limited field, theoretically, the turnover work of the oil drum figure 1 mark 1 can be completed conveniently, rapidly and safely under the working condition that a forklift can go.

Description of the drawings:

fig. 1 is a schematic view of the whole structure of an electric oil drum rapid turnover device when an oil drum is locked, as shown in fig. 1, and the device is marked 1.

Fig. 1 mark a and fig. 1 mark B are the jack positions of the forklift, and fig. 1 mark C is the lug position of the crown block.

The general assembly drawing (Bucket electric 399) is divided into three parts, which are respectively: FIG. 1 identifies 1; FIG. 1 identifies 2; figure 1 identifies 3.

FIG. 1 identifies 1 the name of the drawing: oil rounds model; oil drum: it is reiterated that oil drums are expressed in this specification as 200-208 litre iron drums, cylindrical, approximately 895 millimetres in height and approximately 571.5 millimetres in diameter.

FIG. 1 identifies 2 the name of the drawing: bucket electric 199.

FIG. 1 identifies 3 the name of the drawing: bucket 299.

Fig. 1-1 is a left side view of the assembly of < electric oil drum quick-dumping device >. Rechargeable large-torque lithium battery brushless wrench figure 2-1 mark 16 is placed on the left side of figure 1< electric oil drum rapid turnover equipment > to help convenient operation. Fig. 1-1 is an enlarged view B showing the upper edge of the oil drum, fig. 1 and fig. 1, mark 4, clamped by

marks

54 and 61 of fig. 3-1 and fig. 3-1. The clamp point locations are identified as 52 in fig. 3-1 and 53 in fig. 3-1, respectively. Fig. 1-1 is an enlarged view a showing the locked state of fig. 1-1 mark 5 of the lower edge of fig. 1 mark 1 of the oil drum by the mark 50 of fig. 3.

The reference numeral 2 in fig. 1 contains the relevant description of all the contents of fig. 2, fig. 2-1, fig. 2-2, fig. 2-3.

FIG. 2, FIG. 2-1, FIG. 2-2 are all the same mechanical structure; for clarity, the three views use different projection modes.

FIG. 2 name of drawing: packet electric 199 is part 2 of fig. 1.

Fig. 2-1 is a cross-sectional view of fig. 2, and fig. 2-1, mark a-a, shows the connection manner and structure of mark 16 of fig. 2-1, mark 6 of fig. 2, and mark 18 of fig. 2-1 of the external spherical surface bearing with seat of the rechargeable large torque lithium electric brushless wrench; fig. 2-1, D-D, shows the connection and structure of reference 18 of the insert bearing shown in fig. 2-1 and reference 21 of the insert bearing base shown in fig. 2-1.

Fig. 2-2 is a cross-sectional view portion of fig. 2, with reference to fig. 2-2 a-a showing the fastening of reference 24 of fig. 2-2 to the outer spherical seated bearing seat, reference 21 of fig. 2-1.

Fig. 2-3 are cross-sectional view portions of reference numeral 7 of fig. 2, with the drawing designations: bucket 14 invent.

Fig. 2 identifies 6 names: WPWEDK 70-120B; reducer (commercially available) description: the center height is 155.0 mm; the reduction ratio is 1: 900; a flange with a motor; the aperture of the torque input end is 19.0 mm; the through hole of the torque output end is 45.0 mm; positioning the mounting hole as 220.0 mm x 100.0 mm x M14 (internal thread); at 1500 rpm, the input power is 0.75 kilowatt, and the output peak torque is 1166 nm.

This is done for a brief explanation: calculated by the torque equation T9550P/N, where T is torque in nm; p is output power, unit kilowatt; n is the motor speed, unit rpm; assuming that the input power is 4.0 kw at 1500 rpm for speed reducer fig. 2 designation 6, and in fact that speed reducer fig. 2 designation 6 requires an input torque of about 25.5 nm, then speed reducer fig. 2 designation 6 outputs about 6218.67 nm. Meaning that the selected rechargeable large-torque lithium-ion brushless wrench, fig. 2-1, is identified by the reference numeral 16, which completely meets the use requirements.

FIG. 2 identifies 7 the name of the drawing: bucket 14, which will be described in detail in FIGS. 2-3.

FIG. 2 identifies the name of 8 drawings: bucket 21, the material is medium carbon steel 45#, and the outer spherical surface is provided with a bearing base; welded to the figure 2 mark 14 according to relevant size and technical requirements, and has a parallelism less than or equal to 0.05 mm with the outer spherical surface bearing pedestal, the reference 21 in figure 2-1.

FIG. 2 identifies 9 the name of the drawing: screw GB _ T70.1M 14 x 40; is used for connecting and fixing the speed reducer, shown as a mark 6 in figure 2, and the bearing pedestal with the spherical outer surface and the seat, shown as a mark 21 in figure 2-1.

FIG. 2 identifies 10 the name of the drawing: bucket 15, material Q235A, thickness 15.0 mm; fig. 2

shows

13, 2

shows

14, 2

shows

11 and 2 shows 15 are welded according to the relevant dimensions and specifications.

FIG. 2 identifies 11 the name of the drawing: bucket 40; the crown block lifting lug is made of Q235A material and 12.0 mm in thickness, and is welded with the reference 10 in figure 2, the reference 13 in figure 2 and the reference 14in figure 2 according to relevant sizes and technical requirements.

FIG. 2 identifies 12 the name of the drawing: a UCPA 212; insert bearing (commercially available): the model is UCPA 212; the center height is 69.9 mm; the aperture is 60.0 mm; the positioning hole distance is M16X 114.0 mm; and ensuring that the coaxiality of the 60.0 mm reference positioning hole and the 60.0 mm reference positioning hole of the mark 18 of the insert bearing with the outer spherical surface shown in figure 2-1 is less than or equal to 0.1 mm; and the coaxiality of the installation positioning of the mark 29 in figures 2-3 is less than or equal to 0.05 mm.

FIG. 2 identifies 13 the name of the drawing: ISO 657_14-200x100x 12-900: the total length of the section bar is 900.0 mm; welded to the respective fig. 2-1 reference 21, fig. 2 reference 15, fig. 2 reference 10 and fig. 2 reference 11 in the relevant dimensions and specifications.

FIG. 2 identifies 14 the name of the drawing: ISO 657_14-200x100x 12-900A: the total length of the section bar is 900.0 mm; respectively welded with the

marks

8, 15, 10 and 11 in the figures 2 and 2 according to relevant sizes and technical requirements.

FIG. 2 identifies 15 the name of the drawing: bucket 17, add strength tie plate, material Q235A, thickness 10.0 mm.

FIG. 2-1 identifies the 16 name: hand drill 18v, rechargeable high torque lithium-ion electric brushless wrench (commercially available) model RB-818; the voltage is 21V; the battery capacity is 4000/6000 mAh; the idle speed is 0-900/0-1200/0-1800; the impact frequency is 0-1800/0-2000/0-2200; 1300 nm max; the third gear can be adjusted to 1 gear 650 nm, 2 gear 900 nm and 3 gear 1300 nm; the belt rotates forward and backward and stops; the number of revolutions is slow when the start key is lightly pressed, and the number of revolutions is accelerated when the start key is heavily pressed; two lithium batteries are adopted; the net weight is 2.75 kg.

FIG. 2-1 identifies 17 the drawing name: hand drill 18v 01; the coupler is used for connecting the rechargeable large-torque lithium-ion electric brushless wrench with the mark 16 in the figure 2-1 and the mark 6 in the figure 2 of the speed reducer. One end is a mandrel with a flat key and a diameter of 19 mm, the other end is a pneumatic sleeve with a diameter of 12.7 mm, the two ends are welded, and the coaxiality is less than or equal to 0.05 mm.

FIG. 2-1 identifies 18 names: a UCPA 212; insert bearing (commercially available): the model is UCPA 212; the center height is 69.9 mm; the diameter of the hole is 60.0 mm; the distance between the positioning holes is M16X 114.0.0 mm, and the coaxiality between the reference positioning precision and the mark 12 of the insert bearing with the seat in the figure 2 is ensured to be less than or equal to 0.1 mm; and the coaxiality of the installation positioning of the mark 28 in figures 2-3 is less than or equal to 0.05 mm.

FIG. 2-1 identifies 19 the drawing name: bucket 26; flat bond 14.0 mm x 9.0 mm x 123.0 mm; material Q235A; for use with a flat keyed mandrel, designated 20 in fig. 2-1.

FIG. 2-1 identifies 20 the drawing sheet name: bucket 25; the mandrel with the flat key has the diameter of 45.0 mm x 262.0 mm, is matched with the mark 19 in the flat key figure 2-1 for use, is used for connecting the torque output end with the diameter of 45.0 mm in the mark 6 in the figure 2 of the speed reducer and the mark 28 in the figure 2-3, and is installed and positioned in the reference positioning hole of 60.0 mm in the mark 18 in the figure 2-1 of the bearing with the spherical outer surface and the seat; the coaxiality of the standard positioning hole and the standard positioning hole with 60.0 mm of the mark 18 of the bearing with the outer spherical surface and the seat in the figure 2-1 is less than or equal to 0.05 mm.

FIG. 2-1 identifies 21 the name of the drawing: bucket 20; the material is medium carbon steel 45#, the outer spherical surface bearing pedestal with the seat is welded with the mark 13 of the figure 2 according to the relevant dimension and technical requirements, and the parallelism between the outer spherical surface bearing pedestal with the seat and the mark 8 of the figure 2 is less than or equal to 0.05 mm.

FIG. 2-1 identifies 22 the name of the drawing: screw GB _ T70.1M 16x 40; the screw for connecting and fastening the outer spherical surface bearing with seat, figure 2-1 mark 18 and the outer spherical surface bearing with seat, figure 2-1 mark 21. The insert bearing seat 8 in fig. 2 and the insert bearing seat 12 in fig. 2 are likewise fastened by the connection 22 in fig. 2-1. And ensures that the coaxiality of the reference positioning holes of 60.0 mm of the mark 12 of the bearing with the seat on the outer spherical surface in figure 2 and the mark 18 of the bearing with the seat on the outer spherical surface in figure 2-1 is less than or equal to 0.1 mm.

FIG. 2-2 identifies 23 the name of the drawing: screw GB _ T70.1M 10 x 20; for securing the mark 24 of fig. 2-2 to the outer spherical pedestal bearing base 21 of fig. 2-1, the function is: when a heavy-load < electric oil drum rapid turnover device > is hoisted by a crown block, the radial movement of the mark 18 of the figure 2-1 of the bearing with the seat on the outer spherical surface is prevented due to the gravity center effect. This measure is also used for the insert bearing seat 8 in fig. 2.

FIG. 2-2 identifies 24 the drawing sheet name: bucket 36; material Q235A, thickness 8.0 mm.

Fig. 2-3 are integral parts of reference numeral 7 of fig. 2, with the drawing names: bucket 14 invent.

Fig. 2-3 identifies 25 the name of the drawing: screw GB _ T70.1M 8 x 20A; is an M8 set screw.

Fig. 2-3 identifies 26 the name of the drawing: screw GB _ T70.1M 6x 30B; for securing and positioning the indicia 27 of fig. 2-3 and the indicia 29 of fig. 2-3; also, the indicia 26 of fig. 2-3 is used to secure and position the indicia 27 of fig. 2-3 and the indicia 28 of fig. 2-3.

Fig. 2-3 identifies 27 the name of the drawing: buchet 12: the material is medium carbon steel 45# which is welded with the mark 28 of the figure 2-3 and the mark 29 of the figure 2-3 in a positioning way respectively; meanwhile, the mark 28 in figures 2-3 and the mark 29 in figures 2-3 are ensured, and the bore coaxiality of the two is less than or equal to 0.05 mm.

Fig. 2-3 identifies 28 the drawing name: bucket 13; the material is medium carbon steel 45#, an inner hole is provided with a flat key groove, and the coaxiality with the mark 29 of figures 2-3 is less than or equal to 0.05 mm; and a 60.0 mm reference positioning hole of a mark 18 of an insert bearing with a seat on the outer spherical surface, wherein the coaxiality is less than or equal to 0.05 mm.

Fig. 2-3 identifies 29 the name of the drawing: bucket 13; the material is medium carbon steel 45#, an inner hole is provided with a flat key groove, and the coaxiality of the key groove and the mark 28 of figures 2-3 is less than or equal to 0.05 mm; and the bearing is also arranged and positioned with an aperture of 60.0 mm of the mark 12 of the insert bearing with a seat on the outer spherical surface in figure 2, and the coaxiality is less than or equal to 0.05 mm.

2-3 indicia 30 are 60.0 mm diameter pilot holes that are aligned to match the indicia 38 of FIG. 3 to a tolerance H9/H9 and welded according to the relevant dimensional and specification requirements.

Fig. 2-3, 32, 33, 34, 35, 36, 2-3, and 3 are all welded using relevant dimensions and specifications, as indicated at 31 in fig. 2-3, 32 in fig. 2-3, 33 in fig. 2-3, 35 in fig. 2-3, and 36 in fig. 2-3.

Reference numeral 3 in fig. 1 encompasses all relevant descriptions of fig. 3 and fig. 3-1.

FIG. 3 name of drawing: packet 299, which is part of label 3 of fig. 1.

Fig. 3-1 and fig. 3 are the same drawing, and for convenience of viewing, fig. 3-1 is partially enlarged.

Fig. 3 shows 41, fig. 3 shows 42, fig. 3 shows 43, fig. 3 shows 45, fig. 3 shows 46, fig. 3 shows 47, fig. 3 shows 48, fig. 3 shows 49 and fig. 3 shows 50, and these combinations are safety designs for preventing unhooking when the heavy-duty oil drum 1 is overturned.

This is done for a brief explanation: the use mode of the compression spring, namely the mark 48 in fig. 3 can contract the mark 48 in fig. 3, the mark 49 in fig. 3 and the mark 50 in fig. 3 to the two-plane fit of the mark E in fig. 3 and the mark F in fig. 3 when the electric oil drum quick-overturning device is not loaded. When the mark 48 of the compression spring shown in fig. 3 is in a load state of < electric oil drum rapid turnover equipment >, even if an accident situation occurs in the mark 42 of the vertical type clamp shown in fig. 3 and the mark 42 of the compression spring is not effectively locked at the mark 41 of fig. 3, the mark 5 of fig. 1-1 can be always ensured to be attached and locked by the mark 50 of fig. 3 under the tensioning action of the mark 48 of the compression spring shown in fig. 3 until the work of the oil drum mark 1 shown in fig. 1 is safely finished when the oil drum is overturned;

next, the vertical clamp fig. 3 mark 42 is under the compression spring return, the fig. 3 mark 50 is close to the lower edge fig. 1-1 mark 5 of the oil drum fig. 1 mark 1, the vertical clamp fig. 3 mark 42 is returned, so that the D position of the vertical clamp fig. 3 mark 42 locks the fig. 3 mark 41. Ensuring that the mark 5 of fig. 1-1 is more securely locked by the mark 50 of fig. 3; the use is safer and more reliable!

In addition, the anti-unhooking safety design can remove the

marks

42, 43, 45, 46, 47, 48, 49 and 50 in FIG. 3, respectively, as long as the screws of the marks 40 in FIG. 3 are loosened; the installation sequence is reversed. The disassembly and the assembly are convenient and quick, so that the accessories can be flexibly replaced and maintained.

FIG. 3 identifies 37 the drawing name: bucket 1; including the relevant contents of enlarged view E of fig. 3-1.

FIG. 3 identifies 38 the sheet name: bucket 9; fit into a 60.0 mm diameter pilot hole of the indicator 30 of fig. 2-3, with a tolerance H9/H9, and welded according to relevant dimensions and specifications. Under the positioning action of the mark 44 in fig. 3, the mark 61 in fig. 3-1 is welded according to relevant size and technical requirements.

FIG. 3 identifies 39 the sheet name: oil rounds model-2-2; the material is wear-resistant plate HARDOX400, and the thickness is 30.0 mm; is positioned and matched with the mark 38 of the figure 3, has the tolerance H9/H9 and is welded according to relevant size and technical requirements; play the auxiliary stay effect when load oil drum figure 1 sign 1.

FIG. 3 identifies 40 the name of the drawing: CH-10448-ZH 10; is a screw GB _ T70.1M 6x 16 for fastening the logo 47 of figure 3.

FIG. 3 identifies 41 the sheet name: a Bucket 34; for the vertical clamp fig. 3, the 42 locked position; welded as to the relevant dimensions and specifications as indicated at 38 in figure 3.

FIG. 3 identifies 42 the drawing sheet name: CH-10448-ZH; vertical clamp (commercially available) CH-10448-ZH; dongguan Jia steel is produced by electromechanical technology development limited company; the clamping force of the vertical clamp is 450 kg; locking at the mark 41 in fig. 3, resetting the mark 42 in fig. 3, and locking the mark 5 in fig. 1-1 by the mark 50 in fig. 3.

FIG. 3 identifies the H drawing name: CH-10448-ZH 09; a standard socket head cap screw GB _ T70.1M 10 x 20.

FIG. 3 identifies 43 the drawing sheet name: bucket 29; a positioning base for the vertical clamp of fig. 3, 42, having a material Q235A and a thickness of 25.0 mm; the vertical clamp is installed on the bracket, the mark 42 in figure 3, and is fastened by a hexagon socket screw, the mark H in figure 3. And 49 from figure 3 are welded according to relevant dimensions and specifications.

FIG. 3 identifies 44 the drawing name: bucket 10; material Q235A; the device is used for installing and positioning the workpiece during welding of the mark 61 in fig. 3-1 and the mark 38 in fig. 3.

FIG. 3 identifies 45 the drawing sheet name: bucket 37; screw M10 x 160.0 mm; is a compression spring the spindle indicated at 48 in figure 3; the material quality is 45# for medium carbon steel.

FIG. 3 identifies 46 the sheet name: bucket 33; the nut M10 is engaged with the lead screw fig. 3 label 45 and locks the fig. 3 label 47.

FIG. 3 identifies 47 the drawing sheet name: bucket 35; cooperating with the lead screw fig. 3 mark 45; the outer circumferential groove is fixedly locked by the mark 40 of fig. 3 and the upper surface is locked by the mark 46 of fig. 3 in conformity with the dimensional requirements of the related art.

FIG. 3 identifies 48 the sheet name: bucket 32; compressing the spring: the diameter of the steel wire is 1.6 mm; material 65 manganese; the free length is 202.0 mm; the working load is 50 n; outer diameter X inner diameter 19.2X16.0 (mm); the effective number of turns is 23; the mounting length is 85.0 mm.

FIG. 3 identifies 49 the drawing sheet name: bucket 28; medium carbon steel 45 #; and requires a related heat treatment to fit the inner bore of the mark 38 of FIG. 3 to a tolerance H9/H9; and FIG. 3 designation 50 are welded in accordance with relevant dimensional and technical requirements; the bore mounts a lead screw, fig. 3 designation 45 and a compression spring, fig. 3 designation 48. The enlarged view of fig. 3, labeled 51, shows that the stem, labeled 45 in fig. 3, has an outer diameter M10 that matches 11.0 mm of the through hole.

FIG. 3 identifies 50 the sheet name: a Bucket 30; material h hard ox400, welded to fig. 3 designation 49 in accordance with the relevant dimensions and specifications; the lower edge of the oil drum is marked with the reference numeral 1, and is marked with the reference numeral 5 in the figure 1; positioned at an angle to the reference 43 of fig. 3, and welded according to the dimensions and specifications associated with reference 62 of fig. 3-1.

Fig. 3 mark 51 is the 11.0 mm diameter via location of fig. 3 mark 49.

Fig. 3-1 and 3-1,

reference

53 and 52 are the clamping points of the upper edge of fig. 1-1, reference 4 of the oil drum, reference 1, respectively.

FIG. 3-1 identifies 54 the drawing sheet name: bucket 3; wear plate HARDOX 400.

FIG. 3-1 identifies 55 the name of the drawing: bucket 7; the diameter of the mandrel is 20.0 mm, the material is medium carbon steel 45#, the two ends of the mandrel are provided with baffle ring grooves for the mandrel, and elastic baffle rings GB 894.1-86-20 are used.

The indicia 56 of fig. 3-1 shows the indicia 57 of fig. 3-1 and the indicia 59 of fig. 3-1 tilted 12 degrees clockwise.

FIG. 3-1 identifies 57 the drawing name: bucket 4; the handwheel material Q235A, welded with the M16 lead screw fig. 3-1 label 59, is of relevant size and technical requirements.

FIG. 3-1 identifies 58 the drawing name: bucket 8; a mandrel with the diameter of 25.0 mm and made of medium carbon steel 45#, wherein two ends are provided with baffle ring grooves for shafts, and elastic baffle rings GB 894.1-86-25 are used; with internal threads M16 for use in conjunction with the label 59 of fig. 3-1.

FIG. 3-1 identifies 59 the drawing name: screw GB _ T70.1M 16x 80; 8.8 grade; is modified from a standard M16 socket head cap screw and is welded with the hand wheel figure 3-1 mark 57 according to relevant size and technical requirements.

FIG. 3-1 identifies 60 the drawing sheet name: bucket 6; a mandrel with the diameter of 25.0 mm and made of medium carbon steel 45#, wherein two ends are provided with baffle ring grooves for shafts, and elastic baffle rings GB 894.1-86-25 are used; with a terminal hole.

FIG. 3-1 identifies 61 the drawing sheet name: bucket 2; material wear plate HARDOX 400; the mark 44 in fig. 3 is taken as a positioning reference and the mark 38 in fig. 3 is installed and positioned, and the mark 38 in fig. 3 is welded according to relevant size and technical requirements.

The portion of the bottom view of fig. 3-1, label 62, shows 90 degrees, specifying the welding angle requirements of label 50 of fig. 3 and label 43 of fig. 3.

The enlarged view I of the mark 63 of fig. 3-1 shows 83.5 degrees, which specifies the design dimension requirement of the unhooking prevention angle of the mark 50 of fig. 3.

The specific implementation mode is as follows:

make < electrodynamic type oil drum rapid turnover equipment > state before the work in advance: the two clamping points of the mark 53 in fig. 3-1 and the mark 52 in fig. 3-1 are in an open state, and the vertical clamp 42 in fig. 3 is separated from the mark 41 in fig. 3 and is rotated 90 degrees counterclockwise by taking the mark 49 in fig. 3 as an axis. Under the action of the compression spring, the mark 48 in fig. 3, the two planes of the mark E in fig. 3 and the mark F in fig. 3 are attached. The results were: the dimension length from the mark 52 to the plane G of fig. 3-1 is 868.0 mm, which is much smaller than the height 895 mm of the mark 1 of fig. 1.

In the first step, no matter a crown block or a forklift is used for overturning a heavy-duty oil drum by using < electric oil drum quick overturning equipment > shown as a figure 1 mark 1, firstly, a hand wheel is rotated clockwise, shown as a figure 3-1 mark 57, to drive a figure 3-1 mark 59 until two clamping points of a figure 3-1 mark 53 and a figure 3-1 mark 52 lock the oil drum, shown as a figure 1 mark 4, on the upper edge of the figure 1 mark 1. The state is adjusted to the enlarged view B of the figure 1-1.

And secondly, lifting the electric oil drum rapid turnover device by using a crown block or a forklift, and driving the oil drums shown in figure 1 and marked 1 to be lifted together. A raised height suitable for operating the vertical clamp at the position indicated at 42 in figure 3.

And thirdly, the starting switch is touched slightly through the mark 16 in the figure 2-1, and the inner circular arc of the mark 39 in the figure 3 is adjusted to be attached to the outer circular surface of the mark 1 in the figure 1 of the oil drum. This presses down on the vertical clamp 42 of figure 3, which brings down the

indicia

49 and 50 of figures 3. And observe figure 3 sign 50 and descend to the position that surpasss oil drum figure 1 sign 1 lower limb picture 1-1 sign 5 completely, then regard figure 3 sign 49 as the axle center clockwise rotation 90 degrees figure 3 sign 42, and drive figure 3 sign 49 and figure 3 sign 50 and rotate 90 degrees together.

Fourth, the vertical clamp fig. 3 mark 42 is reset by the compression spring, the fig. 3 mark 50 is close to the lower edge fig. 1-1 mark 5 of the oil drum fig. 1 mark 1, and the vertical clamp fig. 3 mark 42 is reset, so that the position D of the vertical clamp fig. 3 mark 42 locks the fig. 3 mark 41. Until the figure 1-1 mark 5 is locked by the figure 3 mark 50, the magnitude of the locking force can be adjusted by the adjusting screw of the vertical clamp figure 3 mark 42.

And fifthly, carrying < electric oil drum rapid turnover equipment > and a heavy-duty oil drum with a crown block or a forklift, wherein the points 1 are shown in figure 1 and 1 are the dumping places, driving a coupler, namely the point 17 in figure 2-1, by inching a starting switch of a rechargeable large-torque lithium-ion electric brushless wrench, namely the point 16 in figure 2-1, and then transmitting the driving signal to a speed reducer, namely the point 6 in figure 2. Meanwhile, under the action of the identifier 6 in the figure 2 of the speed reducer, the identifier 20 in the figure 2-1 with the flat key mandrel is driven to be transmitted to the identifier 7 in the figure 2 (also the integral part in the figure 2-3), the gear speed of the identifier 16 in the figure 2-1 of the rechargeable large-torque lithium battery brushless wrench is adjusted according to the use requirement, and the work of turning over the identifier 1 in the figure 1 of the oil drum is gradually completed.

After the oil drum overturning operation is completed in the sixth step, the posture of the electric oil drum quick overturning device is adjusted through a positive and negative rotation switch of a rechargeable large-torque lithium battery brushless wrench shown as a mark 16 in a figure 2-1, and the unloading of the empty oil drum shown as a mark 1 in a figure 1 is facilitated. The crown block or forklift truck with < electric oil drum rapid dumping device > and empty oil drum is lowered to the height suitable for operating the vertical clamp at 42 in figure 3, as shown in figure 1.

The seventh step is to press down the vertical clamp, fig. 3 tab 42, to disengage it from the fig. 3 tab 41. Then, the vertical clamp is rotated 90 degrees counterclockwise around the axis of fig. 3 mark 49, and the vertical clamp is driven to rotate 90 degrees counterclockwise around the axis of fig. 3 mark 42, fig. 3 mark 49 and fig. 3 mark 50. Fig. 3 sign 50 is under the restoration of compression spring fig. 3 sign 48, and fig. 3 sign 50 breaks away from oil drum fig. 1 sign 1's lower limb picture 1-1 sign 5 to under the effect of compression spring fig. 3 sign 48, fig. 3 sign E and fig. 3 sign F's two plane laminating.

Eighth step counterclockwise rotating the handwheel, fig. 3-1 mark 57, to drive the standard M16 hexagon socket head cap screw, fig. 3-1 mark 59, gradually making the two clamping points of fig. 3-1 mark 53 and fig. 3-1 mark 52 loosen the edge, fig. 1 mark 1, fig. 1 mark 4, of the oil drum until the empty oil drum, fig. 1 mark 1, is separated from the electric oil drum rapid dumping device.

3-1 and 3-1

indicia

57 and 59 are shown tilted 12 degrees clockwise, as viewed in FIG. 3-1, the center of gravity of 3-1 and 3-1

indicia

57 and 59 is to the right, without the 3-1 indicia 59 falling out of the jackscrew hole of 3-1 indicia 60 by loosening the standard M16 socket head cap screw.

So far < electric oil drum rapid turnover equipment > finishes the work of the figure 1 mark of the turnover oil drum.

Claims

1. Be applied to the electrical equipment of overturning the oil drum fast < the quick equipment that overturns of electrodynamic type oil drum >, its characteristic includes:

an < electrodynamic type oil drum equipment of tumbleing fast > adopts the structure that machinery and rechargeable big torsion lithium electricity brushless spanner combined together, passes through the shaft coupling through rechargeable big torsion lithium electricity brushless spanner and drives the speed reducer, accomplishes the oil drum work of tumbleing.

b. < quick tipping arrangement of electrodynamic type oil drum > can tip the heavy load oil drum that less than or equal to 1.5 tons.

c. No matter use the overhead traveling crane, still use fork truck < electrodynamic type oil drum equipment of tumbleing fast >, 360 degrees whole week of continuous upset can all be accomplished to the oil drum.

d. < quick tipping arrangement of electrodynamic type oil drum > not restricted place work, as long as the site work condition that fork truck can go, all can accomplish the oil drum and overturn work.

An electric oil drum rapid turnover device is capable of adjusting the speed of an oil drum in turnover work.

f. < electric quick dump device for oil drum > using vertical clamps.

The electric oil drum rapid overturning device adopts a safety design for preventing unhooking.

2. The method for turning over the oil drum according to claim 1, wherein the electric oil drum quick-turning-over device is required to achieve the purpose of turning over the oil drum by operating a rechargeable large-torque lithium-ion electric brushless wrench no matter whether the oil drum is heavy or idle.

h. Requirement 1 g safety design to prevent unhooking: the vertical clamp and the compression spring are matched with each other for use.

i. Requirement 1 g safety design to prevent unhooking: and (4) disassembling and assembling modes.