Spirit level with a spirit level body

专利摘要:
Spirit level (1) with a spirit level body (10), wherein along the spirit level body (10) at least one measuring surface (2) is arranged, the spirit level body (10) is formed by a, preferably rectangular cross-section, hollow profile, the at least one measuring surface ( 2) extends uninterruptedly along the hollow profile, and that at least one first (5) for inserting at least one magnet or magnetisable body (6) into the cavity is formed on at least one first or second side wall (3, 4) formed at right angles to the measuring surface (2) (7) of the spirit level body (10) is provided.
公开号:AT521028A4
申请号:T50621/2018
申请日:2018-07-18
公开日:2019-10-15
发明作者:
申请人:Sola Messwerkzeuge Gmbh；
IPC主号:

专利说明:

The invention relates to a spirit level with the features of the preamble of claim 1.
In addition, a method for producing the spirit level according to the invention is to be specified.
Spirit levels of the type mentioned above are already known in the art and are shown for example in US 7,552,540 B2. However, this spirit level is not a spirit level with a
Spirit level body, which is designed by a hollow profile. Such a spirit level body tends to be due to the open design easier to impurities or often has a lower stability than a hollow body. Although the level shown in the prior art also has magnets which are arranged on the back of the measuring surface, yet they are on or on the outside of a profile, which makes their attachment quite complex and also in terms of stability and longevity of the attachment Magnets causes problems.
EP 0 852 697 B1 shows a hollow profile which encloses the magnets on its inner side. These are inserted through the opening cross section in the longitudinal direction of the hollow profile, which complicates the mounting and mounting of the magnets in the interior of the hollow profile.
There are also water levels are known in which through the measuring surface through a magnet is attached to the bubble level carcass. The measuring surface is disturbed by a depression or opening in which the magnet is located. In such openings or indentations can accumulate impurities, which can lead to a deviation in the measurement in the worst case.
In addition, the measuring surface interrupted by the magnets can lead to damage to the object to be measured and to measurement inaccuracy if the magnet mounting protrudes from the measuring surface, for example, or if impurities can collect in it.
/ 22
A general problem with magnetic spirit levels is that a good adhesion to the measurement object should be guaranteed and thus the magnets should be as close as possible to the measurement object. Increasing distance between the magnet and the measuring object reduces the holding force. The largest
The problem is therefore that there is a technical conflict between a closed or uninterrupted measuring surface and a sufficient adhesion to the test object.
The object of the invention is to avoid the disadvantages described above and to provide a comparison with the prior art improved spirit level and a method for producing a spirit level.
This is achieved in the spirit level according to the invention by the features of claims 1 and 14.
If the bubble level body is formed by a hollow profile which is preferably rectangular in cross section and the at least one measuring surface extends uninterruptedly along the hollow profile, and at least one opening for inserting at least one magnet or magnetizable body on at least one first or second side wall formed at right angles to the measuring surface is provided in the cavity of the spirit level body, a closed measuring surface can be achieved and a direct attachment of the magnet or magnetizable body behind this measuring surface in the cavity of the bubble level carcass. It is thus achieved a small distance between the object to be measured and the magnet. Furthermore, the installation of the magnet or of the magnetizable body is simplified by the openings inserted laterally in the side wall. It is also achieved by a hollow profile high strength. A hollow profile also has the advantages that the components therein, such as dragonflies or the magnets or magnetizable body, are closed off from their environment and thus protected.
/ 22
If at least one opening for insertion of at least one magnet or magnetizable body is provided on the first side wall and the opposite, second side wall is designed to be closed in the area opposite the opening, the stability on the level body is also increased. Too many openings reduce the strength of the Waserwaagenkorpus. Furthermore, the overall picture of the spirit level is not characterized by too many openings, cuts or the like, which improves the visual impression of the spirit level. In addition, too many openings or indentations, even if they are closed by covers or the like, creates gaps in which contaminants can accumulate.
If in the second side wall in the cavity of the hollow profile, opposite the at least one opening in the first side wall, a recess for direct or indirect attachment of the at least one magnet or magnetizable body is provided, this indentation can be used to attach the magnet or magnetizable body. Through the indentation, a positive connection and / or a larger surface can be generated in order to better grasp or hold the magnet or magnetizable body.
If the at least one magnet or magnetizable body is held directly or indirectly by a magnet holder in the cavity of the hollow profile, wherein the at least one magnet or magnetizable body or magnet holder can be inserted through the at least one opening in the first side wall and via the indentation with the second Side wall is connected, a simple and stable attachment of the magnet is made inside the hollow profile. The magnet holder is held by the first side wall and also by the second side wall. Falling out of the magnet is prevented by the magnet holder. It is also achieved that the magnet is positioned as close as possible to the measuring surface. The magnet holder also allows increased strength to be achieved on the bubble level body. This contributes due to its positive connection with the at least one opening in the spirit level body to the strength of the spirit level body. Often it is also difficult to attach magnets / 22 or magnetizable body due to the accessibility inside a hollow profile. Furthermore, because of their material properties, magnets are not so easily adaptable in shape as, for example, a magnet holder made of plastic. In addition, the magnet holder can be made of a plastic, which can be used, for example, slightly spring-back and thus with a certain excess in the opening and also find support at the indentation, for example as in a clip connection or a press-fit. Thus, by virtue of the shape and the choice of material of the magnet holder, a certain dimensionally stable connection with the spirit-level body, which is additionally supported or supported by an additional joining method, such as, for example, gluing or fusing, already arises.
If the at least one magnet or magnetizable body is glued in the cavity of the spirit-level body, then a simple connection between the spirit-level body and the magnet, magnetizable body or the magnet holder results. Bonding is a fast, easy, inexpensive and stable joining method that allows different materials to be permanently bonded together.
If the magnet holder or the at least one magnet or magnetizable body has a joining surface for connection-preferably bonding-with the indentation, then the connection via this joining surface is improved. A defined joint surface, z. As for bonding the magnet, magnetizable body or magnet holder, for example, can be specially prepared for this addition or compound.
If the magnetic holder has at least one magnetic socket for receiving at least one magnet or magnetizable body, the magnet or magnetizable body is held in its position in the cavity of the spirit-level body. If the magnet holder or the magnetic holder is made, for example, by a slightly spring-back material, the magnet or magnetizable body can be pressed into this magnet holder or magnet holder with a certain degree of oversize. This results in a firm connection / 22 between the magnetic socket and the magnet or magnetizable body. It is a disturbing noise during transport or when using the spirit level prevented by a rattling magnet inside the cavity. In addition, an improved stability with respect to the entire structure of the spirit level can be achieved via the dimensionally stable connection between the magnetic mount, the magnet and the spirit level body. The exact position of the magnet or magnetizable body through the magnetic socket also ensures that the magnet can be as close as possible to the surface to be measured.
If the magnet holder is adapted in a cover portion of the shape of the opening in the first side wall, wherein in the installed state of the magnet holder, the opening is closed by the cover portion of the magnet holder, even after installation of the magnet holder a closed surface structure on
Spirit level body made. Thus, the ingress of contaminants or moisture into the interior of the spirit level body is avoided. In addition, due to the closed surface still z. B. a digital print can be applied, which also reaches over the cover section. The opposite side surface remains closed, since the at least one opening is mounted only in the first side wall. Thus, the opposite second side wall generally has a closed structure. This side surface can thus also be used for attaching printed images, for example in the form of a digital print.
By the cover portion is also achieved that a positive connection between the opening and the cover portion and thus the magnet holder is achieved. This is conducive to the stability of the entire spirit level. It could happen, for example, that the area of the measuring surface under the opening is pressed into the interior of the cavity by a blow against the measuring surface. Due to the positive connection - made by the cover section this is prevented.
If the at least one magnet or magnetisable body in the cavity of the spirit-level body directly behind the at least one uninterrupted / 22
Measuring surface is positioned, so an optimal holding force between the magnet and the object to be measured is made. In addition, the measuring surface itself serves as a stop for the magnet or magnetizable body. The magnet or magnetizable body is thus enclosed between the portion behind the measuring surface inside the cavity and the magnet holder. The magnet or magnetizable body can thus no longer move after it has been inserted through the magnet holder behind the measuring surface.
When the at least one opening extends in height at most over a quarter of the height of the first or second side wall, so an opening is created, which does not adversely affect the overall stability of the spirit level body. In addition, enough surface remains, for example, to attach a surface pressure on the first side surface (in which the openings are located) can. In addition, exactly defined, in other words, the user visually made clear on which side the magnets are located.
If the cover portion of the magnet holder, which is located in the opening, color-coded or this color stands out from the rest of the spirit level, the position of the magnets is immediately visible to the user.
If the depth of the recess extends more than half the wall thickness of the first or second side wall, a sufficiently deep recess is created in order to be able to improve the connection to the magnet holder or magnetizable body. On the other hand, a sufficient strength in the region of the indentation is achieved by choosing the depth of the indentation. The stability of the spirit level should not be significantly reduced by the indentation. Since the area of the recess after the mounting of the magnet holder, the magnet or magnetizable body, filled, there is generally no reduction in stability.
If the joining surface of the magnet holder or the at least one magnet or magnetizable body has a structuring, wherein the structuring for connection - in particular bonding - is provided with the indentation, then an improvement of the holding force between the magnet, magnet holder or / 22 magnetizable body and Spirit level made. As structuring, it is understood that the joining surface z. B. has a certain roughness, coating, shape or even structure to improve the connection between the joining surface and the indentation. In the case of a bond, for example, it is advantageous to generate as large a surface as possible in order to provide a sufficient adhesive surface. The surface can be achieved, for example, by roughening or surface structuring, such as waves, grooves or the like at the joining surface.
If the wall thickness between the magnet or magnetizable body and the measuring surface is thinner than the wall thickness of the first or second side wall, a closer positioning of the magnet or magnetizable body to the object to be measured is provided. The thinning at this point, in which the magnetizable body or the magnet is positioned behind the measuring surface, can amount to a maximum of two-thirds of the wall thickness of the first or second side wall. The thinning can be arranged only in this area where the magnet is located. This has the consequence that the spirit level is not adversely affected by the reduction of wall thickness in terms of their stability.
The following process steps provide a simplified and inexpensive method of manufacturing a spirit level body with improvements in durability, magnetic adhesion to objects, stability, and appearance.
- Cutting a spirit level body from a - preferably rectangular in cross-section - hollow profile,
Editing at least one continuous measuring surface on the spirit level body,
- Production of at least one opening and - optionally at least one underlying depression - in at least one perpendicular to the measuring surface lying side wall of the spirit level body, / 22nd
- Inserting at least one magnet or magnetizable body or a magnet holder with at least one magnet or magnetizable body with a joining surface - optionally in the direction of the depression - through the at least one opening.
In addition, this method can be improved by the method step of joining the joining surface with the recess via a joining method, preferably gluing. By gluing the connection is simplified and achieved an additional stability on spirit level carcass. The insertion of the magnet holder in the bubble level body is carried out, for example, by previously applying the adhesive to the joining surface and then inserting or inserting the magnet holder in the opening.
By dimensioning the magnet holder or the magnet tuned to the dimensions of the bubble level body and thus resulting, corresponding contact portions is achieved that the adhesive is used exactly where it is needed. When inserting or inserting the magnet holder or magnet, the adhesive between the indentation and the joining surface (adhesive surface) is squeezed or distributed by the pressure during insertion or insertion of the magnet holder or magnet according to large-scale, which leads to an improvement in adhesive adhesion. As an adhesive, for example, liquid adhesive such. As two-component adhesives or other resins, isocyanate adhesive such as superglue or the like can be used. Hot glue can also be used. It would also be possible to use an adhesive strip, such as a double-sided adhesive tape.
Instead of an adhesive, however, it is also possible to use another joining agent or another joining technique. These include, for example, fusion or ultrasonic welding.
Further details and advantages of the present invention will be explained in more detail below with reference to the description of the figures with reference to the exemplary embodiments illustrated in the drawings. Show:
/ 22
Fig. 1 is a schematic representation of an embodiment of a
Spirit level carcass with openings in an oblique view,
2, 3 sectional images through the spirit level,
Fig. 4 to 6 differently shaped cross-sections of a spirit level body, and
Fig. 7 shows an alternative fastening variant.
1 shows a spirit level body 10 of a spirit level 1. This has a first side wall 3 and a second side wall 4. Both in the first side wall 3 and in the second side wall 4 openings 5 may be arranged, which serve for the use of the magnet or magnetizable body 6. In Fig. 1 it is only shown that openings 5 are located on the first side wall 3. Any number of openings 5 can be arranged along the spirit level body 10. In addition, it is also possible for at least one or more magnets or magnetizable bodies 6 to be arranged in at least one opening 5 or a plurality of openings 5. Perpendicular to the first or second side wall 3, 4 is the measuring surface. 2
The measuring surface 2 has no openings or interruptions and preferably extends over the entire length of the spirit level body 10. Also, the measuring surface 2 remains unaffected by the openings 5. Inside the spirit level body 10, the cavity 7 extends, since the spirit level body 10 is a hollow profile. This preferably has a rectangular cross-section. Other cross sections would also be conceivable.
In the spirit level 1 at least one dragonfly 16 is also arranged.
Fig. 2 shows a cross section through the spirit level 1 or the
Spirit level body 10. The magnet holder 9 is in the installed state in the cavity 7 of the spirit level body 10. This is joined via the joining surface 11 with the recess 8. The cover section 13 closes the / 22
It can be seen that not only a connection between the joining surface 11 and the indentation 8 is used, but also a positive connection between the spirit level body 10 and the magnet holder. 9
It is the cover portion 13 positively in the opening 5 and, for example, can not be moved parallel to the side surfaces 3, 4 or in the direction of the longitudinal axis of the spirit level body 10. It can also be seen that the joining surface 11 engages in the recess 8. Again, a positive connection is made.
The magnet holder 9 has a magnetic socket 12, which is provided for positioning the magnet or magnetizable body 6. The magnet or magnetizable body 6 can not move due to the inner wall behind the measuring surface 2 in the cavity 7 and the magnetic socket 12 in the interior of the cavity 7. It is thus firmly anchored directly behind the measuring surface 2.
The height of the opening Hoe is at most a quarter of the height Hs of the side wall. The wall thickness of the magnetic effective range Wm is also thinner than the wall thickness of the side wall Ws. This reduces the effective distance of the magnet 6 to an object to be measured, which significantly improves the holding power of the spirit level 1. In addition, it can be seen that the height of the opening Hoe extends only from an area above the measuring surface 2 and thus does not influence it. As a result, a sufficient strength in the region of the opening 5 is achieved and it can not accumulate contamination in the region of the measuring surface 2.
Fig. 3 shows a sectional view of the spirit level body 10 or the spirit level 1 from above perpendicular to the measuring surface 2. It can also be seen how the cover portion 13, the opening 5 along the longitudinal axis of the spirit level body 10 completely closes and thus enters into a positive connection. The depth of the indentation Te extends into the interior of the wall thickness Ws.
/ 22
The indentation 8 is in an operative connection with the joining surface 11. Between the joining surface 11 and the indentation 8 there is a joining means 15, for example in the form of an adhesive or the like. For example, a
Adhesive connection selected, this can achieve a structuring 14 improved adhesion between the magnet holder 9 and the spirit level body 10. The structuring 14 can take place by a simple roughening on the surface of the joining surface 11. The structuring 14 may also be associated with a corresponding structuring on the indentation 8. The indentation 8 can be created for example by a milling or other type of material removal. It can, for. B. also be provided that the indentation 8 is created at the same time with the opening 5 on spirit level body 10. This can be made possible, for example, by a one-time milling process, which processes both side surfaces 3, 4 simultaneously from one side.
It can also be provided that the bonding of the joining surface 11 with the indentation 8 takes place through channels from the outside through the magnet holder 9. Thus, the adhesive can be injected through the inserted magnet holder 9 therethrough.
Furthermore, it can be provided that a joining means 15 is used not only in the area of the joining surface 11 and the indentation 8. It is also possible to use additional bonds at other locations.
Furthermore, it would also be conceivable that the magnet holder 9 not only includes a magnet or magnetizable body 6 but also other aids, such as a dragonfly. Thus, in one operation, not only the magnet or magnetizable body 6 but also at the same time a dragonfly 16 in
Spirit level body 1 are arranged.
4 shows a spirit level body 10 in cross section. In this case, a rectangular profile is used with a cavity 7, which shows on the outside of the profile various projections, projections or projections. The magnet or magnetizable body 6 is arranged inside the cavity 7, as already explained in the previous embodiments.
5 shows a further exemplary embodiment of a spirit level body 10 with hollow body 7 and magnet or magnetizable body 6 arranged therein. The cross section shown here is not rectangular but polygonal.
FIG. 6 shows a further embodiment in which the spirit level body 10 comprises two cavities 7, as can be seen in cross section. The magnet or magnetizable body 6 can be arranged in only one or both of the cavities 7.
Fig. 7 shows a further embodiment of the connection between the magnet holder 9 and the side surface 4 of the spirit level body 10. Instead of or in addition to the bonding over the recess 8 can also be a screw via a screw 18. The screw 18 could also make a direct connection between the magnet or magnetizable body 6 and the side wall 4.
/ 22
LIST OF REFERENCE NUMBERS
spirit level
Measuring surface first side wall second side wall
opening
Magnet or magnetizable body
cavity
indentation
magnetic holder
Level body
joining surface
magnetic version
deck section
structuring
Joining agent 15
screw
Hoe height opening
Hs height sidewall
Ws wall thickness sidewall
Te deep dent
Wm Wall thickness Magnetic effective range

权利要求:
Claims (15)
[1]
claims
1. Spirit level (1) with a spirit level body (10),
- Wherein along the spirit level body (10) at least one measuring surface (2) is arranged, characterized in that
- The spirit level body (10) by a - preferably rectangular in cross section - is formed hollow profile and
- The at least one measuring surface (2) extends uninterruptedly along the hollow profile, and that
- At least one preferably at right angles to the measuring surface (2) formed first or second side wall (3, 4) at least one opening (5) for inserting at least one magnet or magnetizable body (6) into the cavity (7) of the spirit level body (10) is.
[2]
2. Spirit level according to claim 1, characterized in that on the first side wall (3) at least one opening (5) for inserting at least one magnet or magnetizable body (6) is provided and the opposite, second side wall (4) in the region opposite the Opening (5) is executed closed.
[3]
3. Spirit level according to claim 1 or 2, characterized in that in the second side wall (4) in the cavity (7) of the hollow profile, opposite the at least one opening (5) in the first side wall (3), a recess (8) for indirect or direct attachment of the at least one magnet or magnetizable body (6) is provided.
[4]
4. Spirit level according to claim 3, characterized in that the at least one magnet or magnetizable body (6) is held directly or indirectly by a magnet holder (9) in the cavity (7) of the hollow profile, wherein the at least one magnet or magnetizable body (6 ) or the magnet holder (9) can be inserted through the at least one opening (5) in the first side wall (3) and is in communication with the second side wall (4) via the indentation (8).
15/22
83288 26 / eh
[5]
5. Spirit level according to one of claims 1 to 4, characterized in that the at least one magnet or magnetizable body (6) in the cavity (7) of the bubble level body glued and / or screwed.
[6]
6. Spirit level according to claim 4 or 5, characterized in that the magnet holder (9) or the at least one magnet or magnetizable body (6) has a joining surface (11) for connection to the indentation (8), wherein the compound by an adhesive bond and / or a screw connection can be produced.
[7]
7. Spirit level according to one of claims 1 to 6, characterized in that the magnet holder (9) has at least one magnetic socket (12) for receiving at least one magnet or magnetizable body (6).
[8]
8. Spirit level according to one of claims 1 to 7, characterized in that the magnet holder (9) in a cover portion (13) is adapted to the shape of the opening (5) in the first side wall (3), wherein in the installed state of the magnet holder, the opening (5) is closed by the cover portion (13) of the magnet holder (9).
[9]
9. Spirit level according to one of claims 1 to 8, characterized in that the at least one magnet or magnetizable body (6) in the cavity (7) of the spirit level body (10) is positioned directly behind the at least one uninterrupted measuring surface (2).
[10]
10. Spirit level according to one of claims 1 to 9, characterized in that the at least one opening (5) in its height (Hoe) a maximum of a quarter of the height (Hs) of the first or second side wall (3, 4).
[11]
11. Spirit level according to one of claims 1 to 10, characterized in that the depth (Te) of the recess (8) extends more than half of a wall thickness (Ws) of the first or second side wall (3, 4).
16/22
83288 26 / eh
[12]
12. Spirit level according to one of claims 6 to 11, characterized in that the joining surface (11) of the magnet holder (9) or at least one magnet or magnetizable body (6) has a structuring (14), wherein the structuring (14) for Connection with the recess (8) is provided.
[13]
13. Spirit level according to one of claims 1 to 12, characterized in that a wall thickness (Wm) between the magnet or magnetizable body (6) and the measuring surface (2) is thinner than a wall thickness (Ws) of the first or second side wall (3 , 4).
[14]
14. A method for producing a spirit level (1), in particular a spirit level according to one of claims 1 to 13, characterized by the following method steps:
- Cutting a spirit level body (10) from a - preferably rectangular in cross-section - hollow profile,
Editing at least one continuous measuring surface (2) on the spirit-level body (10),
- producing at least one opening (5) and - optionally at least one underlying depression (8) - in at least one perpendicular to the measuring surface (2) lying side wall (3, 4) of the spirit level body (10),
- Inserting at least one magnet or magnetizable body (6) or a magnet holder (9) with at least one magnet or magnetizable body (6) with a joining surface (11) - optionally in the direction of the depression (8) - through the at least one opening (5 ).
[15]
15. The method according to claim 14, characterized by the following method step:
- Assembling the joining surface (11) with the recess (8) via a joining method - preferably gluing and / or screwing.

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同族专利:

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公开号 | 公开日

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CN110736445A|2020-01-31|

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US20200025565A1|2020-01-23|

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DE102019004594A1|2020-01-23|

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AT521028B1|2019-10-15|

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US10948291B2|2021-03-16|

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CN110736445B|2021-10-08|

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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ATA50621/2018A|AT521028B1|2018-07-18|2018-07-18|Spirit level with a spirit level body|ATA50621/2018A| AT521028B1|2018-07-18|2018-07-18|Spirit level with a spirit level body|

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US16/455,896| US10948291B2|2018-07-18|2019-06-28|Spirit level having a spirit level body|

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DE102019004594.7A| DE102019004594A1|2018-07-18|2019-07-04|Spirit level with a spirit level body|

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CN201910642927.8A| CN110736445B|2018-07-18|2019-07-17|Spirit level and method of manufacturing spirit level|