DE3047593A1 - Suction carrier for plate glass - creates vacuum by tightening wing nut and has vacuum gauge to indicate any loss of vacuum - Google Patents

Abstract

The suction unit is intended for carrying a glass plate (14) using a handle (17). It comprises a disc (1) made of resilient material and containing a rigid core plate (3), a cap (2) whose rim engages the peripheral area of the rear of the disc, and a stud screw (6) fixed to the rear of the plate (3) which extends through the cap and carries a wing nut (11) to create the vacuum (13) between disc (1) and glass plate (14) by being tightened. Rotation of the screw is prevented by a bent pin (15) and a vacuum gauge (20) fixed to the outside of the cap connects (21,22) with the space (13) between the disc (1) and the glass (14) and indicates any loss of vacuum.

Description

Description

The present invention relates to an improved suction cup for carrying a plate with flat and smooth surfaces, for example a thick glass plate.

A conventional suction holder has a suction disc and a cap, the opening of which is covered by the pane, and one attached to the pane Handle on.

When the handle is swiveled down, the middle part becomes the disk is pulled towards the cap so that in between the disk and a vacuum is created in the cavity formed in the surface of the glass sheet.

However, such known suction cups have no device for accurately generating a desired degree of evacuation in the cavity.

In addition, the conventional suction holder has no display device for a drop in suction due to a leak. That is why there is for one Person who carries a glass plate with a conventional suction cup, occasionally the risk of dropping the glass plate because the drop in suction power goes unnoticed remain.

The object of the present invention is to create a suction holder, with that in the cavity between the disc and the surface of the to be worn Part a desired degree of evacuation can be generated, and in which a waste the suction force is visible to the operator to ensure the safety of the suction cup to increase.

According to the invention, this object is achieved by a suction holder characterized by a suction disc made of elastic material, a cap whose Opening covering the disc to hold it, a core plate made of rigid material, which is embedded in the suction disc coaxially to this, a screw that is attached to is attached to one side of the core plate and protrudes through the cap, a wing nut, the is screwed onto the part of the screw protruding from the cap, elements which prevent the screw from turning, a vacuum gauge attached to the outer surface the cap is arranged and with one between the outer surface of the suction disc and the surface of the part to be held is in communication with the cavity formed, to indicate the degree of evacuation in the cavity, and one provided on the cap Handle.

Embodiments of the present invention will be made based on the following Figures described. 1 shows the perspective view of a first embodiment of the present invention; FIG. 2 shows the side view of the suction cup according to FIG. 1 in use partially in section; Fig. 3 is a perspective view of a second Embodiment, and FIG. 4 the suction holder according to FIG. 3 in a side view partly in cut.

The suction holder shown in FIGS. 1 and 2 according to a first Embodiment of the present invention stands out from a suction pad 1 and a cap 2 holding the disk. The edge of the cap 2 has a diameter equal to or slightly smaller than that of the disc 1.

The disc is made of an elastic material such as Rubber made.

A core plate 3 made of a rigid material is inserted into the Disk 1 is embedded coaxially to this so that it is between the outer layers 4 and 5 of the disc.

On one side of the core plate 3 is a screw bolt in the middle 6 attached to at right angles by a provided in the middle of the outer layer 5 Opening 7 to protrude.

The cap 2 has a curved wall 8 and a coaxial wall extending approach 9. The opening of the cap 2 is covered with the disk 1.

The screw bolt 6 protrudes through an opening 10 in the middle of the cap base is provided to the outside, so that on the protruding part of the Screw bolt 6 a wing nut 11 can be screwed. Though the screw bolt 6 can be moved in the axial direction by turning the wing nut 11, limited a stop 12 its movement outwards. When the core plate is pulled to the left by the screw bolt 6 in FIG. 2, between the outer layer 4 of the disc 1 and the surface of an object to be carried 14 a cavity 13 is formed and kept under vacuum.

One end of a hook-shaped pin 15 is on the shank of the screw bolt 6 attached and the other end of the pin fits into an opening 16 made in the Approach is arranged so that even if the wing nut 11 is rotated, the screw bolt 6 does not rotate.

The ends of a handle 17 are rotatably mounted in hubs 18, which are provided on the side of the projection 9 diametrically opposite one another.

A vacuum gauge 20 is provided on the top of the cap. The end of a tube 21 protruding from the vacuum gauge 20 is airtight in a Opening 22 received in the disc 1, and thus enables a connection of the vacuum measuring device 20 with the cavity 13.

Although the vacuum measuring device 20 shown in FIG. 1 is circular arranged scale division 23 and a pointer 24, any other Type of a Va- kuummeßgerätes, such as a cylinder type used will.

The second embodiment of the present invention shown in FIGS. 3 and 4 Invention differs from the first embodiment in three points.

First, the second embodiment is with a fixed handle 17 'instead of the pivotable handle 17 of the first embodiment.

Second is the shank of the screw bolt 6 with a key 15 'instead of the hook-shaped pin 15 of the first embodiment. Of the Key 15 'fits into a keyhole 25 on the surface of opening 10 is provided in the axial direction. The key 15 'and the keyhole 25 enable a movement of the screw bolt 6 in the axial direction while it is rotating prevent when the wing nut 11 is rotated.

Third, a spring 26 is provided on the bolt 6 is fastened between the core plate 3 and the extension 9. When the wing nut 11 is rotated to cause inward axial movement of the screw bolt 6, the spring 26 facilitates this move up to one to such an extent that the outer surface of the disc 1 is made convex, so that easily remove them from the surface of the object 14 to be carried by the suction cup can be touched.

During operation, the slightly concave outer surface of the suction disk 1 pressed against the surface of an object 14 to be carried, and then the Wing nut 11 rotated so that an outward axial movement of the screw bolt 6 is achieved. The core plate 3 which is embedded in the disc 1 is through the screw bolt 6 is pulled to the left in FIG. 2 in order to close a cavity 13 and to create a vacuum in this to a certain extent. The wing nut 11 is rotated until a desired degree of vacuum in the cavity is generated. Achieving a desired degree of vacuum can be achieved by reading the of the vacuum measuring device 20 can be determined.

By reading the vacuum gauge it can be determined that no decrease in the degree of evacuation and thus a decrease in the force of attraction as a result of leak occurs.

So there is for a person who is using a suction cup according to the present invention a glass plate does not carry Risk of dropping as a result of an unnoticed drop in suction power.

Although the invention has been described based on the above embodiments It should be noted that the present invention is supported only by the following Claims is limited.

Claims (2)

Claims 1. Suction holder given by a Suction disk (1) made of elastic material, a cap (2), the opening of which is the disk (1) to hold it, covers a core plate (3) made of rigid material, which is inserted into the suction disk (1) is embedded coaxially to this, a screw (6) which is attached to one side of the core plate (3) is attached, and protrudes through the cap (2), a Wing nut (11) that fits onto the part of the screw (6) protruding from the cap (6) is screwed on, elements (15) that prevent the screw (6) from turning Vacuum measuring device (20) which is arranged on the outer surface of the cap (6) and with one between the outer surface of the suction disc (1) and the surface of the to be held Part (14) formed cavity (13) is in communication to the To indicate the degree of evacuation in the cavity (13), and one provided on the cap (2) Handle (17). 2. Suction holder according to claim 1, characterized in that g e k e n n -z e i c h n e t that still on the screw (6) between the core plate (3) and the approach (9) a spring (26) is attached.