CN208394470U - A kind of roll gap micromatic setting - Google Patents

Abstract

The utility model relates to a kind of roll gap micromatic settings, including guide wheel, guide wheel shaft, rack, swing arm, photoelectricity correlation switch, winding off spindle, controller and the cylinder controlled by controller, swing arm includes swing arm bar, one end of swing arm is movably fixed in rack by first axle bearing bore, the other end of swing arm is connect by second bearing hole and the guide wheel shaft being mounted in second bearing hole with guide wheel, one end of cylinder below swing arm is fixed on the rack, the other end of cylinder is movably fixed on swing arm bar, winding off spindle is fixed in the rack of guide wheel shaft obliquely downward, photoelectricity correlation switch for incuding coiled strip thickness on winding off spindle is fixed on the swing arm of second bearing hole obliquely downward, line between winding off spindle and the axle center of guide wheel shaft passes through photoelectricity correlation switch and keeps spacing by photoelectricity correlation switch between each other, photoelectricity correlation switch It is connected with controller；The utility model provide it is a kind of guarantee coiled strip after winding off spindle and guide wheel spacing roll gap micromatic setting.

Description

A kind of roll gap micromatic setting

Technical field

The utility model relates to a kind of machinery production field more particularly to a kind of roll gap micromatic settings.

Background technique

The mechanism of existing roll gap fine tuning needs to make when the material for winding or batching on Scroll or winding off spindle After coil diameter becomes larger, real-time control Scroll perhaps the distance between winding off spindle and guide wheel holding Scroll or winding off spindle Spacing between guide wheel can produce the distance roller at this time since the thickness for the material for winding or batching is changed It is raw to influence.

In view of the above shortcomings, the designer, is actively subject to research and innovation, to found a kind of roll gap fine tuning dress It sets, makes it with more the utility value in industry.

Utility model content

In order to solve the above technical problems, the purpose of the utility model is to provide winding off spindles and guide wheel after a kind of holding coiled strip Between distance roll gap micromatic setting.

The roll gap micromatic setting of the utility model, including guide wheel, guide wheel shaft, rack, swing arm, photoelectricity correlation switch, Winding off spindle, controller and the cylinder controlled by the controller, the swing arm include swing arm bar, and one end of the swing arm bar is opened Equipped with the first axle bearing bore for fixing the swing arm, the other end of the swing arm bar is offered for installing the guide wheel shaft The one end in second bearing hole, the swing arm is movably fixed in the rack by the first axle bearing bore, the swing arm it is another One end is connect by the second bearing hole and the guide wheel shaft being mounted in the second bearing hole with guide wheel, and institute is located at The one end for stating the cylinder below swing arm is fixed in the rack, and the other end of the cylinder is movably fixed to the swing arm On bar, the winding off spindle is fixed in the rack of the guide wheel shaft obliquely downward, thick for incuding coiled strip on the winding off spindle The photoelectricity correlation switch of degree is fixed in the swing arm of second bearing hole obliquely downward, the winding off spindle and guide wheel shaft Axle center between line pass through the winding off spindle after the photoelectricity correlation switch and coiled strip outer diameter face and guide wheel outer diameter face it Between spacing kept by the photoelectricity correlation switch, the photoelectricity correlation switch connects with controller.

Further, the controller is PLC controller.

Further, the cylinder is telescopic cylinder.

Further, the photoelectricity correlation switch includes that a pair is separately positioned on the rack two sides and in same level Transmitter and receiver on line.

Further, the transmitter of the photoelectricity correlation switch is installed in the swing arm of rack side, and photoelectricity is to penetrating out The receiver of pass is installed in the swing arm of the rack other side.

Further, the winding off spindle and guide wheel are arranged in parallel.

According to the above aspect of the present invention, the utility model at least has the following advantages:

The distance between real-time control winding off spindle and guide wheel, keep the spacing between winding off spindle and guide wheel, and convenient material is flat Whole is wound or is batched by guide wheel.

The above description is merely an outline of the technical solution of the present invention, in order to better understand the skill of the utility model Art means, and can be implemented in accordance with the contents of the specification, below on the preferred embodiment of the present invention and the accompanying drawings in detail It describes in detail bright as after.

Detailed description of the invention

Fig. 1 is the cross-sectional view of the roll gap micromatic setting of the utility model.

1 guide wheel, 2 rack

3 photoelectricity correlation switch, 4 winding off spindle

5 cylinder, 6 swing arm bar

7 first axle bearing bore, 8 second bearing hole

Specific embodiment

With reference to the accompanying drawings and examples, specific embodiment of the present utility model is described in further detail.Below Embodiment is not intended to limit the scope of the present invention for illustrating the utility model.

A kind of roll gap micromatic setting shown in FIG. 1, including guide wheel 1, guide wheel shaft, rack 2, swing arm, photoelectricity are to penetrating out 3, winding off spindle 4, controller and the cylinder 5 controlled by controller are closed, swing arm includes swing arm bar 6, and one end of swing arm bar 6 offers For fixing the first axle bearing bore 7 of swing arm, the other end of swing arm bar 6 offers the second bearing hole 8 for installing guide wheel shaft, pendulum One end of arm is movably fixed in rack 2 by first axle bearing bore 7, and the other end of swing arm passes through second bearing hole 8 and installation Guide wheel shaft in second bearing hole 8 is connect with guide wheel 1, and one end of the cylinder 5 below swing arm is fixed in rack 2, gas The other end of cylinder 5 is movably fixed on swing arm bar 6, and winding off spindle 4 is fixed in the rack 2 of guide wheel shaft obliquely downward, for incuding volume The photoelectricity correlation switch 3 of coiled strip thickness on axis 4 is taken to be fixed in the swing arm of 8 obliquely downward of second bearing hole, winding off spindle 4 and guide wheel shaft Axle center between line the outer diameter face of winding off spindle 4 and the outer diameter face of guide wheel 1 after photoelectricity correlation switch 3 and coiled strip Spacing is kept by photoelectricity correlation switch 3, photoelectricity correlation switch 3 is connected with controller.

The principle of roll gap micromatic setting provided by the utility model is as follows:

With the increase of the thickness of the material batched on winding off spindle 4, it is now placed in 8 obliquely downward of second bearing hole in swing arm The material blocks that photoelectricity correlation switch 3 is taken up on axis 4 are lived, and photoelectricity correlation switch 3 issues signal, cylinder 5 to controller at this time Under the control of the controller, swing arm bar 6 is raised, the guide wheel 1 and photoelectricity correlation switch 3 for driving 6 one end of swing arm bar are elevated directly When material on to winding off spindle 4 will not block photoelectricity correlation switch 3, controller control cylinder 5 stops air inlet and remain stationary State, in this way, the spacing that winding off spindle 4 batches after material between guide wheel 1 is maintained.

In order to make cylinder 5 by raising swing arm bar 6, so that keeping guide wheel 1 after the thickness increase of coiled strip on winding off spindle 4 Spacing between winding off spindle 4, controller are PLC controller, and cylinder 5 is telescopic cylinder.

Photoelectricity correlation switch 3 is sheltered from when the thickness of coiled strip on winding off spindle 4 is too thick, photoelectricity correlation switch 3 can be timely Cylinder 5 is controlled by controller to raise swing arm bar 6, and then keeps the spacing between guide wheel 1 and winding off spindle 4, photoelectricity pair Penetrating switch 3 includes that a pair is separately positioned on 2 two sides of rack and transmitter and receiver in the same horizontal line, and photoelectricity is to penetrating The transmitter of switch 3 is installed in the swing arm of 2 side of rack, and the receiver of photoelectricity correlation switch 3 is installed on 2 other side of rack In swing arm.

The thickness of coiled strip on winding off spindle 4 is incuded in order to facilitate photoelectricity correlation switch 3, is kept between winding off spindle 4 and guide wheel 1 Spacing, winding off spindle 4 and guide wheel 1 are arranged in parallel.

Above are merely preferred embodiments of the utility model, it is not intended to limit the utility model, it is noted that for For those skilled in the art, without deviating from the technical principle of the utility model, if can also make Dry improvement and modification, these improvements and modifications also should be regarded as the protection scope of the utility model.

Claims (6)

1. a kind of roll gap micromatic setting, it is characterised in that: including guide wheel, guide wheel shaft, rack, swing arm, photoelectricity correlation switch, Winding off spindle, controller and the cylinder controlled by the controller, the swing arm include swing arm bar, and one end of the swing arm bar is opened Equipped with the first axle bearing bore for fixing the swing arm, the other end of the swing arm bar is offered for installing the guide wheel shaft The one end in second bearing hole, the swing arm is movably fixed in the rack by the first axle bearing bore, the swing arm it is another One end is connect by the second bearing hole and the guide wheel shaft being mounted in the second bearing hole with guide wheel, and institute is located at The one end for stating the cylinder below swing arm is fixed in the rack, and the other end of the cylinder is movably fixed to the swing arm On bar, the winding off spindle is fixed in the rack of the guide wheel shaft obliquely downward, thick for incuding coiled strip on the winding off spindle The photoelectricity correlation switch of degree is fixed in the swing arm of second bearing hole obliquely downward, the winding off spindle and guide wheel shaft Axle center between line pass through the winding off spindle after the photoelectricity correlation switch and coiled strip outer diameter face and guide wheel outer diameter face it Between spacing kept by the photoelectricity correlation switch, the photoelectricity correlation switch connects with controller.

2. roll gap micromatic setting according to claim 1, it is characterised in that: the controller is PLC controller.

3. roll gap micromatic setting according to claim 1, it is characterised in that: the cylinder is telescopic cylinder.

4. roll gap micromatic setting according to claim 1, it is characterised in that: the photoelectricity correlation switch includes a pair It is separately positioned on the rack two sides and transmitter and receiver in same horizontal line.

5. roll gap micromatic setting according to claim 4, it is characterised in that: the transmitter of the photoelectricity correlation switch It is installed in the swing arm of rack side, the receiver of photoelectricity correlation switch is installed in the swing arm of the rack other side.

6. roll gap micromatic setting according to claim 1, it is characterised in that: the winding off spindle and guide wheel are parallel to each other Setting.