CN1436860A - Grab alpha-angle driving mechanism for blast furnace roof chute-type distributor - Google Patents
Grab alpha-angle driving mechanism for blast furnace roof chute-type distributor Download PDFInfo
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- CN1436860A CN1436860A CN 03100838 CN03100838A CN1436860A CN 1436860 A CN1436860 A CN 1436860A CN 03100838 CN03100838 CN 03100838 CN 03100838 A CN03100838 A CN 03100838A CN 1436860 A CN1436860 A CN 1436860A
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- driving mechanism
- grab
- bearing
- chute
- angle
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Abstract
The present invention relates to mechanical driving mechanism to drive the rotary body around the horizontal shaft in a rotation system, and is specifically one alpha-angle driving mechanism in furnace roof bell-free distributor. The driving mechanism includes two opposite synchronous parallel rotating shafts driven by one synchronous mechanism, four symmetrically distributed crank-connecting link mechanisms, connecting support and bearing support ring jacket. The driving mechanism forms the grabbing elevation drive to the bearing support ring, and the arced containing link hinged to the bearing support ring coverts the vertical driving force into chute-driving moment. The present invention has simple structure, smooth running, convenient operation, low cost and no radial component force.
Description
Technical field
The present invention is a kind of design of transmission rig, and its independence that is mainly used in the opposing connection Z-axis rotator provides the driving mechanism of moment of rotation around the horizontal rotational shaft parts, particularly is used for furnace roof chute-type distributor is provided the driving mechanism of α angle rotation.
Background technology
In the object that rotates around Z-axis, exist individual components simultaneously around horizontal rotational shaft, this has just determined the complicacy of its drives structure.Particularly the driving scope around transverse axis is the swing of 90 ° of corners, has just more increased the complexity of its transmission rig.From the PW founding of the company after the no bell chute feeder, the design of such transmission rig and research are just become the hot issue of the industry.Because this mechanism is mainly used to drive the horizontal α pivot angle of chute, so people are called the α angle driving mechanism of furnace roof chute-type distributor again habitually.What PW company initiated is the planet-shaped differential gear.Complex structure, difficult design involves great expense, operation easier, maintenance cost height though its volume increase, energy-saving benefit are obvious, move also more stable reliable, but because its production cost and running cost are too high, it almost is impossible promoting with using on medium and small blast furnace.Courageously adopt the wireline pulley group to drive the big backing ring of upper and lower driving bearing in the patent that the full pine of the monk of China is applied for and finished the moment transmission that the α angle drives, though greatly reduce production cost, but structural entity is still too numerous and jumbled, and steel rope abrasion is too fast, and pulley track centering is also stable inadequately.Although PW company is constantly improving on the driving mechanism of α angle, but the improvement of its up-to-date design and Shijiazhuang City No.3 Valve Factory design is for similar thinking, the radial component that crank-linkage type α corner moment transmission under the biasing main drive shaft of being taked drives can cause turning down supporting and backing ring thereof to overcome, this component makes backing ring wearing and tearing aggravation under the running status of long-term big load, and can lose the stressed equilibrium state of level too early, thereby reduced whole device lifetime greatly.And the device of its horizontal stable and centering also just has to corresponding complicatedly, and this is present problem anxious to be solved in this kind equipment.
Summary of the invention
The objective of the invention is to overcome existing mechanism and transmitting α angle unbalanced problem of horizontal radial component when rotating, simplify stability, reliability that design in the similar mechanism reduces cost with big spoke and increases the single unit system operation.
The key of this mechanism is the α driving mechanism is designed to one by two under the driving of synchronous backward mechanism synchronous, reverse, driven in parallel axles, and the crank connecting link group that on diaxon, is provided with symmetrically, the connecting rod location strand of this crank connecting link group is connected on the lining of the upper and lower mobile big backing ring overcoat of bearing.Thereby rotate simultaneously the synchronous upper and lower formation of connecting rod carried or lowering grabbing of the big backing ring of bearing along with the synchronous rotation of two drive shafts drives the crank group, thus be called grab synchronously, self-centering mechanism.
Why be called synchronous self-centering, be because take the big backing ring of bearing that the crank connecting link group of symmetrical structure determined to be connected with it except the swing degree of freedom that level is arranged, it should be definitely to keep horizontality, can not tilt, and it about, hang down and to fall in the process moment that evenly presses down formation by the big backing ring of bearing and pass to the chute gudgeon and form horizontal torque, can not produce any radial component.If on the bush ring of the big backing ring overcoat of bearing, be provided with radial guide and limit wheel, and set up spacing guide path to match at cabinet shell, then can realize driving the big backing ring of process centre bearer steadily absolute and level about, can be described as the cooperation that has solved two rotary freedoms of complexity with the simplest structure.
Further specify below in conjunction with accompanying drawing and the objective of the invention is how to realize.
Description of drawings
Accompanying drawing 1 is a structural representation of the present invention.
Wherein 1,1A representative symmetrical distribution two driving cranks, 2, the driven crank that the 2A representative is symmetrically distributed, 3,4 is initiatively, kinematic link between the driven crank, 5 represent chute, 7,8 be two with tooth with the modulus pitch wheel, 9 represent the big backing ring of bearing, the rotary barrel that 10 representatives are connected with last suspension, the 10A representative is positioned at the chute gudgeon on the rotary barrel 10,11 representatives drive the crank of gudgeon, 12 is the special-shaped connecting rod of arcuation, 12A be positioned at put in the big backing ring 9 of bearing with the special-shaped connecting rod 12 locating support plate of twist companys mutually, 13 is to be positioned at the bush rings that the big backing ring 9 of bearing puts outward, 14 is the brace and connecting rod framework in the crank connecting link group, 14A is the location gussets that connect with connecting rod 14 strands that are positioned at big backing ring 9 overcoats of bearing, 15,16 be two synchronously, oppositely, parallel drive shaft, 17 is motor gear box.
Embodiment
Fairly simple and practical mode is at two synchronous, reverse, parallel drive shafts (15,16) set up totally 4 set of bell cranks linkage assemblys 14 on, last two of every axle, even and symmetric distribution, connecting rod end in the mechanism links with the outer bush ring 13 that puts of the big backing ring 9 of bearing mutually by support 14A, support 14A and the corresponding distribution of crank connecting link group symmetry.The big backing ring of whole like this bearing 9 is all right to be suspended on the drive shaft (15,16) by four connecting rods.With synchronous, the reverse Rotating with Uniform of two turning axles (15,16), the big backing ring 9 of whole bearing is grabbed mentions, and hangs down then and falls, and its horizontal plane should guarantee not incline.
Two drive shafts (15,16) stably oppositely, synchronized drive is The key factor very.It will guarantee that whole α corner drives the stability of process device operation.And it is multiple to take synchronous, reverse measure to have, accompanying drawing 1 given synchronous, reversing-gear is a pair of same number of teeth, forms with the modulus pitch wheel, each gear shaft all links to each other with drive shaft (15 or 16) by one group of compound toggle, like this along with same tooth, cooperation, drive connection with between the modulus gear, as long as will be wherein a rooted tooth wheel shaft be connected with wheel box 17 output shafts in the propulsion source and can realize drive shaft (15,16) strict synchronously, reverse drive, thereby guarantee the big backing ring of bearing steadily, free lifting flatly.Certainly synchronizing linkage also can be selected the linear power source, as oil pressure or steam-operating power.At this moment if with two synchronously, add one between the gear with modulus and again tooth bar directly linked to each other with take-off lever with modulus double cog bar, promptly can realize the synchronous backward driving, its effect should be similar to the motor gear box type of drive.
For realize the transmission to gudgeon moment, put utilizing the connecting rod 12 of the arcuation abnormal shape in strongback 12A hinge joint location in the big backing ring 9 of bearing, this connecting rod 12A links to each other with the gudgeon 10A of chute 5 by crank 11 again.The special-shaped connecting rod 12A of arcuation connects the location by two symmetric location gusset 12A strands, passes torque on two symmetric gudgeons again, thereby drives chute and the pivot angle rotation of doing 0~90 ° around gudgeon.
Except that the above, related mechanism has the degree of freedom of horizontal direction among the present invention, so need be provided with two symmetric guide and limits wheels in the design of the present invention on the bush ring 13 of big backing ring 9 overcoats of bearing, this position-limited wheel can limit this single-degree-of-freedom with the corresponding setting of guide path on the casing shell and make the big backing ring 9 of bearing stably pass on moment under the effect of grab α angle driving mechanism.
Can eliminate the effect of radial component fully by the driving mechanism of above design, make chute give chute with α angle swinging moment territory in the power of the vertical drive up and down effect of the big backing ring 9 of bearing, simple in structure, operate steadily, it is little to wear and tear, cost is low, and running maintenance is convenient, is once courageously improving α angle driving mechanism.
Claims (7)
1, furnace roof chute-type distributor grab α angle driving mechanism, this mechanism is connected with the crank (11) that chute (5) is gone up gudgeon (10A), the big backing ring of bearing (9) by VTOL (vertical take off and landing) passes to gudgeon crank (11) with α angle swinging moment, it is characterized in that this driving mechanism is by two under the synchronizing linkage driving synchronous, reverse, driven in parallel axles (15,16), and be connected the grab lift drive mechanism that crank connecting link (14) group that is symmetrically distributed above and the bush ring (13) that the big backing ring of bearing (9) China and foreign countries put link composition mutually.
2, according to the said grab α of claim 1 angle driving mechanism, it is characterized in that being located at two synchronous, reverse, driven in parallel axles (15,16) crank connecting link on (14) group, comprise four, distribute symmetrically, the end of connecting rod tangles by the outer bush ring (13) that puts of support (14A) and the big backing ring of bearing (9), and support (14A) is fixed on bush ring (13) and goes up and the corresponding uniform distribution of crank connecting link (14).
3,, it is characterized in that the drive shaft (15,16) of two synchronous backwards links to each other with propulsion source by synchronous backward mechanism according to the said grab α of claim 1 angle driving mechanism.
4, according to the said grab α of claim 3 angle driving mechanism, it is characterized in that synchronous backward mechanism is that a pair of gear that synchronously, is meshed with modulus is formed, compound crank connecting link on the tooth axle axle is paid two drive shafts (15,16) be connected respectively, an output shaft with propulsion source wheel box (17) in two gear shafts links to each other.
5, according to the said grab α of claim 4 angle driving mechanism, when it is characterized in that taking in the synchronizing linkage oil pressure or steam-operating linear drives power source, be provided with between at two same teeth, with the modulus gear one two-sided with the modulus tooth bar, tooth bar is directly linked to each other with the propulsion source of Linear Driving.
6, according to the said grab α of claim 1 angle driving mechanism, it is characterized in that the special-shaped connecting rod of arcuation (12) that is connected with cover in the big backing ring of bearing (9) links to each other with the gudgeon (10A) of chute by crank (11), passes to chute (5) by the moment that this device rotates the α angle.
7, according to the said grab α of claim 1 angle driving mechanism, it is characterized in that on the bush ring (13) of the big backing ring of bearing (9) overcoat, being provided with two symmetric guide and limit wheels, this is taken turns and the corresponding setting of the guide path on the outer casing shell.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 03100838 CN1213153C (en) | 2003-01-23 | 2003-01-23 | Grab alpha-angle driving mechanism for blast furnace roof chute-type distributor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 03100838 CN1213153C (en) | 2003-01-23 | 2003-01-23 | Grab alpha-angle driving mechanism for blast furnace roof chute-type distributor |
Publications (2)
Publication Number | Publication Date |
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CN1436860A true CN1436860A (en) | 2003-08-20 |
CN1213153C CN1213153C (en) | 2005-08-03 |
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ID=27633996
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN 03100838 Expired - Fee Related CN1213153C (en) | 2003-01-23 | 2003-01-23 | Grab alpha-angle driving mechanism for blast furnace roof chute-type distributor |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106460079A (en) * | 2014-06-26 | 2017-02-22 | 株式会社Ihi | Heat treatment apparatus |
CN107167331A (en) * | 2017-06-13 | 2017-09-15 | 农业部南京农业机械化研究所 | A kind of adjustable stalk crop cutting test platform of blade spacing |
CN107172959A (en) * | 2017-06-13 | 2017-09-19 | 农业部南京农业机械化研究所 | A kind of efficient stalk crop cutter device |
-
2003
- 2003-01-23 CN CN 03100838 patent/CN1213153C/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106460079A (en) * | 2014-06-26 | 2017-02-22 | 株式会社Ihi | Heat treatment apparatus |
CN107167331A (en) * | 2017-06-13 | 2017-09-15 | 农业部南京农业机械化研究所 | A kind of adjustable stalk crop cutting test platform of blade spacing |
CN107172959A (en) * | 2017-06-13 | 2017-09-19 | 农业部南京农业机械化研究所 | A kind of efficient stalk crop cutter device |
CN107172959B (en) * | 2017-06-13 | 2023-10-20 | 农业部南京农业机械化研究所 | High-efficient stalk crop cutting device |
CN107167331B (en) * | 2017-06-13 | 2023-12-19 | 东南大学 | Blade interval adjustable stem crop cutting test bench |
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Publication number | Publication date |
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CN1213153C (en) | 2005-08-03 |
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Granted publication date: 20050803 Termination date: 20140123 |