前苏联专利SU1762743A3 Shell feed mechanism

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专利摘要:

公开号:SU1762743A3
申请号:SU884355668
申请日:1988-05-12
公开日:1992-09-15
发明作者:Виттвер Рудольф
申请人:Эльпатроник Аг (Фирма)；
IPC主号:

专利说明:

one
(21) 4355668/08
(22) 05/12/88
(31) 01842/87
(32) 05.13.87
(33) CH
(46) 09/15/92. Bul №34
(71) Elpatronic AG (CH)
(72) Rudolf Wittver (CH)
(56) Patent of Germany
№ 3534209, C 2, cl. In 65 G 24/04, published.
1987
(54) SHUTTER FEEDING MECHANISM
(57) Use of the invention: for transporting a shell from a sheet bending device to a welding machine. The essence of the invention: the mechanism includes a frame
2. Guides 5 are located on the base 2. A carriage 6 moves along the guides. A rotating crank 11 is mounted on the drive shaft 12. The crank sleeve 11 is connected to the connecting rod 16, and the connecting rod 16 is connected to the balance bar 18 of a bistable spring assembly, the spring 21 of which is offset from the longitudinal the axis of the bistable spring assembly, the connecting rod 23 is connected to the camshaft 26. On the camshaft 26 by means of the rod 35 and the bolts 32 are mounted rotary paws. The feed mechanism of the shells is equipped with a deflecting cam 38 with which the balance roller interacts. 3 h. the item of f-ly, 7 ill.
This invention relates to mechanical engineering, in particular to feed mechanisms for shells.
The known feed mechanism of the shells, comprising a carriage mounted on the base with the possibility of reciprocating movement along the guides between the rear and front dead points, located on the carriage with the possibility of moving between the rest position, at least one dog for the shell, a crank-connecting rod mechanism with two hinges, the crank of which is installed rotatably and through the first hinge is connected to its connecting rod, and through the second to the carriage and distribution fur edited with an elastic member for rotating the pawl.
A disadvantage of the known feed mechanism is that the distribution brakes |
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The casting mechanism consumes a portion of the energy intended to move the carriages. Although this part of the energy is small, it may require cooling measures if the carriages and the distribution mechanism have to move with great speed, as is the case with modern machines for the manufacture of cans, on which at least 500 shells are welded per minute.
The purpose of the invention is to reduce energy consumption.
This is achieved due to the fact that the elastic element of the distribution mechanism is made in the form of a bistable spring assembly located between the connecting rod and doggie, the distribution mechanism is designed as a hingedly mounted base roller with a roller, which is connected to the connecting rod by means of the spring of the bistable spring assembly;
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an anvil bearing mechanism, wherein the feeding mechanism is equipped with a deflection cam mounted on the base in the rear dead center of the carriage, the balance wheel roller is arranged with the deflection cam to prevent the bistable spring assembly from prematurely returning to the position of the doggie, the camshaft for a pawl and a hinge four-link for connecting the camshaft with the balance bar.
One of the links of the four-link articulation is made in the form of an adjustable length connecting rod and a swing lever, the crank connecting rod is equipped with a distribution cam for moving the pawl of the scissors psi; s with the return prevention and the flip lever equipped with a roller mounted with the ability to interact with the distribution cam.
The spring of the bistable spring assembly is made in the form of an extension spring. The spring axis of the bistable spring mechanism is set offset from its longitudinal axis.
FIG. 1 shows a general view of the feed mechanism of the shells, top view; in fig. 2 is a front view of the feed mechanism (a partial section of this type in a vertical plane along line II-I of FIG. 1); in fig. 3 is a side view of the feed mechanism (a partial section of this view in a vertical plane along the line Ill-Ill of FIG. 1); in fig. 4 is a partial section in a vertical plane along line IV-IV in FIG. one; in fig. 5 is a perspective view of the feed mechanism in the rear dead center position; in fig. 6 - view of the mechanism at the moment of exit from the position of the rear dead center; in fig. 7-dysgram movement mechanism.
The feed mechanism of the shells 1 is designed to transport the latter to the zone of the welding machine, where the longitudinal edges of the shell are welded.
The feed mechanism comprises a frame 2 with a front frame 3 and a rear frame 4. The front and rear frames are arranged parallel to one another and are connected by rods that are guides 5 (the rods are hollow and connected to water cooling so that they remain cold during operation). maintain accuracy of direction). A carriage 6 with sleeves 7 is mounted on the guide 5 with the possibility of reciprocating movement. The sleeves 7 are directly mounted on the guides 5. The sleeves 7 are interconnected by cross-pieces 8 and 9. On the cross-bar 9 there is a cheek 10 located perpendicular to the bed plane and parallel guides 5.
In the drawings, the carriage movements to the right means moving forward, and the shell is transported forward. Conversely, moving the carriage 6 to the left
0 means backward movement that the carriage makes without a shell.
The movement of the carriage 6 is carried out by means of a crank mechanism. Crank 11 of this mechanism
5 is rotatably mounted on the drive shaft 12. The drive shaft 12 is mounted perpendicular to the guides 5 and in the plane of the bed 2. On the shaft 12, a counterweight 13 is fixed to level the inertial mass of the crank 11 and the nodes connected to it.
Through the hinge 14, the crank 11 is connected to the support 15 of the connecting rod 16. In turn, the connecting rod 16 by means of the hinge 17
5 is connected to the cheek 10, i.e. with the carriage 6. The working length of the connecting rod 1 b between the hinges 14 and 17 can be adjusted by means of the support 15.
On the carriage 6 by means of the hinge 17
0 installed distribution mechanism, made in the form of a balancer 18 with a roller. A pin 19 is attached to the connecting rod at a distance from the balancer 18, which is connected to the pin 20 by means of a spring
5 stretching 21. Together with the balance bar 18, the spring 21 forms a bistable spring assembly. This means that, depending on the position of the connecting rod 16, the line of action of the spring can extend over a distance of
0 under or over the geometric axis of the hinge 17 and, accordingly, the tensile force of the spring 21 will have a torque on the balance bar 18 in the direction of clockwise or against
5 him. The balancer 18 by means of a hinge 22 is connected with a connecting rod 23, adjustable in length. The hinge 22 is shifted relative to the hinge 17 by more than 90 ° in the direction of the axle 20.
The connecting rod 23 is connected by a hinge 24 to one shoulder of a two-armed transfer lever 25. The switching lever 25 is fixed on the distribution shaft 26 installed with
5 rotatably in the traverse 8 of the carriage 6.
On the other shoulder of the rocker lever 25, the roller 27 is mounted with the ability to interact with the distribution cam 28. The distribution cam 28
made with the wedge section 29 and the arcuate section 30 adjoining it, the center of which is located on the geometric axis of the hinge 17.
On the traverse 8 there are two racks 31 for bearings. At each rack 31, the pawl 33 is rotatably mounted by means of the bolt 32. The bolts 32 are perpendicular to the guides 5 approximately horizontally, therefore the pawl 33 can move between the lower end position (working position) and the upper end position (rest position). To rotate, each of the pawls 33 is connected by means of a hinge 34 to a rod 35, which is adjustable in length and connected to a lever 36 mounted on the camshaft 26 by means of a hinge 37.
In the rear dead center area of the carriage 6, an adjustable deflecting cam 38 is mounted on the bed 2. A wedge-shaped section 39 and a horizontal section 40 parallel to the guide 5 are made on the cam 38. The roller 41 of the balance bar 18 interacts with the sections 39 and 40.
The mechanism works as follows.
FIG. 1-4, the dogs 33 are depicted in a resting position in which they are held due to the fact that the spring 21 according to FIG. 3 has a torque in the counterclockwise direction of the balancer so that the connecting rod 23 also has a torque in the counterclockwise direction of the camshaft 26. As a consequence, each of the two rods 35 transmits a torque to the respective dog 33 in the clockwise direction, i.e. the dog is lowered. The working position of each dog is determined by the adjustable length of the bar 35.
FIG. 7, points A-E denote different positions of the hinge 14 (its geometrical axis) with a full turn of the crank 11. A straight line with points put on it A-E indicates the location of the hinge 17 (its geometrical axis) at the position of the hinge 14 from a to e.
When crank 11 rotates in the direction of the boom from the 0 ° position, hinge 14 is in position a, while hinge 17 is in position A. Rod 15 takes a position in which the line of spring 21 is very close to geometric pivot points 17.
On the further path of the hinge 14 at the point b and the hinge 17 at the point B of the line of action of the spring 21 intersects the geometric axis of the hinge 17, and consisting of the balance bar 18 and
the spring 21 of the bistable spring assembly moves through the dead point and then goes into the reverse state. The force of the spring 21 exerts on the balance weight 18 a torque in the direction of travel.
clockwise, and the balance bar 18 pivots through the rod 23, the camshaft 26, which in this case rotates clockwise, pushes the pawl 33 in opposite direction through the hinges 34 and 36
clockwise, i.e. up to the quiescent position.
With continued rotation of the crank 11 in the direction of the boom, the connecting rod 16 moves the carriage 6 back, first with
increasing and then decreasing speed. When the hinge 14 passes the point to the hinge 17 is at the point B, the carriage 6 thus reaches a dead point. On the last leg of the road to the back dead
At the point the roller 41 of the balance bar 18 is fed to the deflecting cam 38, as a result of which the balance bar 18 is temporarily prevented from returning to its original position (Fig. 3).
When the hinge 14 has reached the point g, and the hinge 17 of the point G, then the roller 41 from the horizontal section 40 of the deflecting cam 38 moves to the wedge-shaped section 39. As a result, the bistable spring
node (18, 21) returns to its original position. In this case, the hinge 14 moves from point r to point d, and the hinge 17 moves from point D to point D. As a result, spring 21 exerts on balance bar 18 and shaft 26
torque counter clockwise. The bar 35 moves forward and the pawl 33 down to the working position.
Despite the small angle range from point r to point g, it is sufficient for the pawl 22 to occupy the working position in spite of the friction caused by contamination.
When this distribution cam 28 presses the wedge-shaped section 29 to the roller 27, which causes the rotation of the rocker lever 25 and the rotation of the camshaft 26 counterclockwise. When the hinge 14 passes through point d, the arcuate portion 30 of the distribution cam 28 acts on the roller 27 and prevents the dogs 33 from returning. Thus it is provided that the dogs rest on the edge of the shell 1 which is to move forward.
The forward movement ends at the position of the hinge 14 at the point d and the hinge 17 at the point D. corresponding to the position of the carriage 6 in the front dead center,
The carriage 6 begins to move backwards, while the pawl 33 are in the working position until then. until the hinge 14 has reached the zone between points a and b, in which the bistable spring assembly returns to its original position.

权利要求:
Claims (4)
[1]
1. A feed mechanism for shells containing a carriage mounted on the base with the possibility of reciprocating movement along guides between the rear and front dead points, located on the carriage with the possibility of moving between the working position and the rest position, at least one dog for the shell, a crank - a crank mechanism with two hinges, the crank of which is mounted rotatably and connected to its connecting rod through the first hinge, and the distribution a mechanism with an elastic element for turning the pawl, characterized in that, in order to reduce energy costs, the elastic element of the distribution mechanism is designed as a bistable spring assembly located between the connecting rod and the pawl, the distribution mechanism is hinged on the base of the balancer, which by means of a spring is bistable
The spring assembly is connected to the connecting rod of the crank mechanism, while the feeding mechanism is equipped with a deflection cam mounted on the base in the dead center area of the carriage.
[2]
2. The mechanism of pop. 1, characterized in that the balance bar is equipped with a roller arranged to cooperate with a deflection cam for
to prevent premature return of the bistable spring assembly to the position corresponding to the working position of the pawl, the camshaft for the pawl and the hinged four-bar to connect the camshaft to the balance bar, the hinged four-bar has a length-adjustable connecting rod and a twitch lever, and the crank of the crank-and-turn unit has an offset element and an offset holder. to the working position to prevent return, and the flip lever is equipped with a roll com mounted with
interaction with the cam.
[3]
3. Mechanism on PP. 1 and 2, characterized in that the spring of the bistable spring assembly is made in the form of an expansion spring.
[4]
4. The mechanism according to claim 1-3, characterized in that the spring axis of the bistable spring assembly is set offset from the longitudinal axis of the bistable spring assembly.
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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US704540A|1902-03-24|1902-07-15|Robert S Hill|Conveyer.|

US1862386A|1930-08-22|1932-06-07|Firm Universelle Cigarettemasc|Apparatus for removing articles from a pile|

US3001637A|1958-12-17|1961-09-26|American Can Co|Conveyor mechanisms|

US3431768A|1966-07-29|1969-03-11|Ajax Mfg Co|Stock feed mechanism for forging machines and the like|

CH668758A5|1985-09-04|1989-01-31|Elpatronic Ag|FEED DEVICE, ESPECIALLY FOR can bodies.|CH684641A5|1991-07-19|1994-11-15|Elpatronic Ag|Carrier for transporting sheet metal blanks on a can welding machine.|

TW294643B|1994-02-08|1997-01-01|Elpatronic Ag|

DE19921520C2|1999-05-10|2003-07-03|Strothmann Gmbh & Co Kg Maschb|feed device|

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CN104773464B|2015-04-02|2017-03-01|浙江今跃机械科技开发有限公司|Pipeline positioning and tracking device|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

CH1842/87A|CH671909A5|1987-05-13|1987-05-13|

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