Brake roll conveyer with drive consisting of intermediate rollers for transporting piece loads

专利摘要:
Usage: the invention relates to devices for transporting and stopping cargo. SUMMARY OF THE INVENTION: The roller conveyor comprises an actuating element 7 mounted with the possibility of reciprocating movement from a movable copying probe for interacting with a piece load, arranged perpendicular to the direction of transport on the beams 2 of the fixed frame supporting rollers 1 mounted with the possibility of interaction with supporting rollers 1 rollers 3; located on axles 12 on pivot arms 11, and a driving mechanism 6 for intermediate rollers 3 connected to an electric motor, mounted between guide rollers 25 with axles 24 and intermediate rollers 3 can be moved in the direction of transport. The fixed frame is made with two guides 8 of the fixed frame two parallel-mounted beams 2, and each pivot arm 11 is made of two 18 parts interconnected by means of a hinge axis, one of which has an intermediate roller 3, and the other part of the lever 11 is placed on the axis 24 a guide roller 25, which is rotatably mounted on the guides 8 of the fixed frame, while the hinge axes 18 are mounted on the actuating element 7 so that they can be rotated and moved together with it . The intermediate rollers 3 are constantly in contact with the drive mechanism 6. Due to their contact with the support rollers 1, the latter rotate and move the weight. In the event of a jam, the probe moves the actuator 7 with the axis 18, while the intermediate rollers 3 move away from the support rollers 1, which causes the load to stop. 9 hp f-ly, 6 ill. / Г XI со со N 00 с смЗ
公开号:SU1743348A3
申请号:SU884613115
申请日:1988-12-28
公开日:1992-06-23
发明作者:Гебхардт Эльфриде
申请人:Гебхардт Фердертехник, Гмбх (Фирма)；
IPC主号:

专利说明:

The invention relates to devices for transporting and stopping cargo, in particular to brake roller conveyors.
The purpose of the invention is to provide ease of maintenance of the conveyor.
FIG. 1 shows part of the brake roller conveyor, isometric: in FIG. 2, a section AA is shown in FIG. 3 is a diagram of the engagement of the anchor and intermediate rollers; figure 4 - view B in fig.Z; figure 5 is a view In figure 4; Fig. 6 shows a pivot arm, an intermediate roller and a guide, which are disposed relative to each other with a break.
The brake roller conveyor contains support rollers 1, which are located perpendicular to the direction of transport on the beams 2 of the fixed frame. Intermediate rollers 3 are interoperable with support rollers 1. Support rollers 1 are on the end sides along one axis 4. Beams 2 of the fixed frame have a C-shaped form in cross section. Axes 4 are installed in holes 5 of beams 2 with rotation possibility . With an electric motor, a driving mechanism 6 for intermediate rollers 3 is incorporated, which includes, for example, a V-belt. The actuating member 7 is mounted for reciprocating movement from the movable copier to interact with the piece weight. The actuating element 7 provides coupling or disengagement of the intermediate rollers 3 to the support rollers 1. The fixed frame is made with two guides 8 installed parallel to the beams of the fixed frame, which are fixed to the supporting rollers 1 parallel to the support rollers 1 by means of retaining brackets 9 between themselves by means of cross-pieces 10, arranged perpendicular to the direction of transport.
Intermediate rollers 3 are mounted between two guides 8. A V-belt or similar drive mechanism moves in the transport direction X, while the intermediate roller 3 constantly rotates in the Y direction. The intermediate roller 3 and the rotary lever 11 have a common axis 12. The rotary lever 11 consists of two interconnected parts of one of which is the body 13, which has the shape of a quarter of a circle;
made with two walls 14, which have projections 15 on both sides having openings for accommodating the axis 12 of the intermediate roller 3.
The holes 5 are hexagonal, arranged in the vertical walls 16 of the beams 2 and serve to accommodate the axes 4 of the support rollers 1 and the crossbars 10. The walls 14 have two protrusions 17 with holes for
0 accommodates the hinge axis 18 and the thrust surfaces 19.
The hinge axles 18 are mounted on the actuating element 7 in a rotatable manner and joint movement with
5 him.
When the intermediate roller 3 rotates around the axis 18 in the Z direction, the surfaces 19 on the projections 17 collide against the protrusions 20 inside the notch 21 on the ball element 22, which is the second part of the rotary lever 11 and is made with arms in the form of walls 23.
The housing 13 and the hinge element 22 are interconnected by means of a hinge axis 18. The walls 23 are mounted on the axis 24 of the guide roller 25, which is rotatably mounted on the guides 8 of the fixed frame. The drive mechanism 6 for intermediate rollers is installed between guide rollers 25 with axles 24 and intermediate rollers 3 with the possibility of movement in the direction of transport. The rotation of the lever 11 is limited when focusing the lower edge 26
5 o the surface 27 of the guide 8.
The guide rollers 25 are made with an annular groove 28 having the shape of a drive mechanism 6 in cross section. The hinge element 22 is made
0 with a cylinder 29 having an internal cavity 30. On the protrusions 17 and on the walls 23, holes 31 are made for the axis 18. The walls 23 are mounted on the guides 8 with the ability to pivot, while the hinge
5, the axis 18 is located in the openings 31 and in the cavity 30 of the cylinder 29. The actuating member 7 is provided with openings 32 for positioning the hinge axis 18. The guides 8 are made with openings 33 for
0 axis 24.
The drive mechanism 6, preferably consisting of a V-belt or similar element, is continuously driven by an engine. The gap 5 precise rollers 3, which are constantly in contact with the V-belt of the mechanism 6, also continuously rotate. Probe (not shown) enters the flow of the transported load. If a conveyor occurs, the load is transported.
stays on this dipstick. Since the probe is associated with the actuating element 7, the latter is rotated due to the lowering of the probe loaded with the cargo being transported. In this case, the axis 18, fixed on the actuating element 7, together with the latter moves away from the support roller 1, as shown in Fig. 2.
As a consequence, the intermediate roller 3 is no longer in contact with the support roller 1, as a result of which the support roller is no longer affected by the force that could cause it to rotate. In this case, the intermediate roller 3 rotates around the axis 18, and the surfaces 19 of the protrusions 17 of the arms abut against the projections 20 inside the notch 21 on the hinge element 22, whereby the intermediate roller 3 occupies a fixed position.
After the mash is eliminated, the transported load releases the recessed probe, whereby the latter re-enters the flow of the transported load and at the same time moves the actuating element 7 to the working position, at which the intermediate roller 3 comes into contact with the support roller 1 and causes the latter to rotate.
The proposed conveyor is easy to maintain, it does not require constant adjustment of the position of the intermediate rollers when the latter are worn.

权利要求:
Claims (10)
[1]
1. Brake roller conveyor driven by intermediate rollers for transporting piece cargo, comprising an actuating element mounted for reciprocating movement from a movable copy probe, for interacting with the piece cargo arranged perpendicular to the direction of transport on the beams of the fixed frame supporting rollers mounted with Interoperability rollers located on axles on pivoting levers and connected with electro motor drive mechanism for intermediate rollers mounted between guide rollers with axles and intermediate rollers with the possibility of shifting in the direction of transport, characterized in that, in order to provide ease of maintenance of the conveyor, the fixed frame is made with two beams of the fixed frame installed in parallel guides, and each pivot arm is made of two interconnected by means of a hinge axis
5 parts, on one of which an intermediate roller is located, the other part of the lever is placed on the axis of the guide roller, which is mounted for rotation on the guides of the fixed frame, while the articulated axes are mounted on the actuating element for rotation and joint movement with it .
[2]
2. The conveyor according to claim 1, characterized by - 5 with the fact that each pivoting arm is made of the intermediate roller covering the part of the body and the hinge element with the shoulders.
[3]
3. A conveyor according to claims 1 and 2, characterized by the fact that the casing is made with protrusions having openings for accommodating the axis of the intermediate roller and with two walls that have two protrusions with openings for accommodating the hinge axis
5 and resistant surfaces.
[4]
4. A conveyor according to claims 1 and 2, characterized in that the hinge element is made at one end with a notch, a hollow cylinder and with walls having openings and mounted on the guides rotatably, while the hinge axis is housed in the holes and in the cavity of the cylinder.
[5]
5. Conveyor in PP.1, 2 and 4, distinguished by 5 u and with the fact that the hinge element has
two stubs located in the notch area.
[6]
6. A conveyor according to claim 1, characterized in that the actuating member is complete with openings for positioning the hinge axis.
[7]
7. A conveyor according to claim 1, characterized in that the guide rollers are made with an annular groove having
5 cross section the shape of the drive mechanism.
[8]
8. A conveyor according to claim 1, characterized in that the guides are made with holes for the axis.
[9]
09 The conveyor according to claim 1, characterized in that the beams of the fixed frame are interconnected by means of crossbars, arranged in parallel rollers and perpendicular to the direction of transport, while the guides are fixed on the crossbars by means of supporting brackets.
[10]
10. Conveyor pop. 1, characterized in that the beams of the fixed frame are C-shaped in cross section,
at the same time, in the vertical walls of the displacement beams, the axes of the support rollers and the hexahedral holes are filled with holes
four
Yu.
five
25 2b
FIG. 2
8 P 23 32 Figure 5
31
77

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同族专利:

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公开号 | 公开日

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JPH0780529B2|1995-08-30|

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EP0326660B1|1992-12-16|

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DD283362A5|1990-10-10|

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DE3802819A1|1989-08-10|

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JPH01220630A|1989-09-04|

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AT83463T|1993-01-15|

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GR3006958T3|1993-06-30|

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AU612774B2|1991-07-18|

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US4919256A|1990-04-24|

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ES2035904T3|1993-05-01|

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EP0326660A1|1989-08-09|

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DE3876777D1|1993-01-28|

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AU2890389A|1989-08-03|

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法律状态:
2007-12-20| REG| Reference to a code of a succession state|Ref country code: RU Ref legal event code: MM4A Effective date: 20051229 |

优先权:

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申请号 | 申请日 | 专利标题

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DE3802819A|DE3802819A1|1988-01-30|1988-01-30|DAMPER ROLLER WITH DRIVE OVER INTERMEDIATE ROLLERS|

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