BE898651A - METHOD AND MEANS FOR DETERMINING MEASURING POINTS AND SETTING DISTANCES AND DIRECTION - Google Patents

Abstract

The invention relates to a method and means for determining measuring points and plotting distances and directions when constructing a multi-storey building. Measuring points are laid out on storey floors and on auxiliary structures with pieces of pipe that are positioned perpendicularly above each other with high accuracy. A number of fittings make it possible that, for example with measuring tape and theodolite, from the pieces of pipe resp. distances and directions can be plotted.

Description

       

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  Applicant's name: VAN HOOF, Peter A. J.



  Import patent: "Method and means for recording measuring points and setting out distances and directions." Priority claim based on Dutch patent application no. 8300153.



  Short indication: Method and means for recording measuring points and setting out distances and directions.



   The invention relates to a method for determining measuring points and plotting distances and directions when constructing a multi-storey building.



   Until now, when constructing buildings, there are often no fixed guidelines with regard to taking measurements and the determination of certain places for the fitting of building parts or the like has often been done using markings, such as nails, saw cuts and / or pencil marks, which are arranged on already completed parts of the building or in some way fixed on planks or beams or the like. However, the use of such markings leads to inaccuracies, since the location of these markings is often not properly secured and / or the markings are completely lost during construction. On the other hand, the increasing use of prefabricated parts places high demands on the dimensional accuracy, since otherwise problems can arise when assembling the prefabricated parts.



   The object of the invention is therefore to obtain a method of the above-mentioned type in which good dimensions can be guaranteed in a simple manner throughout the construction.



   According to the invention, this can be achieved in that on the firstly applied floor or the like horizontal construction

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 at least a certain point a marking place in the form of a pipe section is provided and in each higher floor or like horizontal construction of the building above this pipe section, a passage is provided with a pipe section located coaxially with respect to the first pipe section.



   The first piece of pipe installed on, for example, the ground floor floor forms a fixed starting point to be maintained throughout the construction, while an auxiliary starting point perpendicular to each floor is provided, from which measurements can be taken in the horizontal plane. Such markings incorporated in the floors need not be lost during construction and can therefore be used again and again as a starting point for taking measurements.



   An effective marking element to be used therein is formed by a round plate with a hole arranged eccentrically with respect to the center of the plate in the edge of which four notches are mutually rotated through 900 relative to each other, while the pipe section is coaxial with respect to from the centerline of the hole on the plate.



   Using the notches, the marking element to be first fitted can, for example, be correctly positioned on two measuring lines arranged at right angles to each other, while with higher lying floors the plate can be positioned as favorable as possible due to the eccentric location of the plate carrying the pipe section. close the hole under this plate as well as possible.



   The invention will be explained in more detail below with reference to the accompanying figures.



   Fig. 1 shows a marker according to the invention in perspective.



   Fig. 2 shows a top view of FIG. 1, showing measuring lines arranged on an unspecified part of a building.



   Fig. 3 is a perspective view of a marker with a clamping member by means of which the marker can be temporarily secured.

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   Fig. 4 shows a perspective view of an accessory according to the invention.



   Fig. 5 is a perspective view, partly in view and partly in section, of the fitting shown in FIG. 4 in a position rotated by 1800.



   Fig. 6 shows a top view of an accessory for the invention, which can be used together with a measuring tape.



   Fig. 7 is a cross-sectional view of FIG. 6.



   Fig. 8 shows the fitting shown in FIGS. 6 and 7 together with part of a measuring tape clamped to this fitting.



   Fig. 9 shows in perspective a part of a floor formwork and a plate to be fixed thereon with the aids used therewith.



   Fig. 9A shows a top view of part of the aids shown in FIG. 9.



   Fig. 10 shows in perspective the means used to form a passage in a storey floor.



   Fig. 11 shows the passage with recess in a storey floor manufactured by means of means shown in FIG. 10.



   Fig. 12 shows a top view of an adjusting device for correctly positioning a pipe section at a storey floor.



   Fig. 13 is a cross-sectional view of FIG. 12, taken along line XIII-XIII in FIG. 12, along with a marker to be applied and attachment to be used therewith.



   Fig. 14 is a sectional view of FIG. 12, taken along line XIV-XIV in FIG. 12.



   Fig. 15 is a sectional view of FIG. 12, taken along line XV-XV in FIG. 12.



   Fig. 16 shows a top view of a sealing and marking plug.



   Fig. 17 is a sectional view of FIG. 16, taken along line XVII-XVII in FIG. 16.



   Fig. 18 shows a top view of an accessory that can be used for applying a passage in a covering layer to be applied to a floor.

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   Fig. 19 is a sectional view of FIG. 18, taken along line XIX-XIX in FIG. 18.



   Fig. 20 shows a section through a part of a floor with a covering layer applied thereon and a passage arranged therein.



   Fig. 21 shows a view of a tripod according to the invention that can be used in the method according to the invention.



   Fig. 22 shows a side view of FIG. 21 with a theodolite placed on the tripod
Fig. 23 is a plan view of FIG. 21.



   In order to carry out the method according to the invention, at least one, but generally several, marking places are applied to a first manufactured horizontal construction part of the structure, for instance the ground floor, using the marking element shown in Figures 1 and 2.



   This marking member is built up from a thin round plate 1 in which a hole 2 is arranged. As will be apparent from Figs. 1 and 2, this hole 2 is located eccentrically with respect to the center of the plate 1. Four V-shaped notches 3 are arranged in the boundary of the hole 2, such that these notches are mutually arranged at an angle of 900 relative to each other. Furthermore, a pipe piece 4 is attached to the plate 1, which is located coaxially with respect to the center line of the hole 2.



   As shown in FIG. 2, the center of the starting point for the measurements can be indicated by two perpendicularly positioned marking lines 5 and 6 and, using the notches 3, the marker shown in FIGS. 1 and 2 can be set that the center of the opening 2 and the centerline of the pipe piece is perpendicular to the intersection of lines 5 and 6.



   For a good fixation of the marking member, use can be made of an L-shaped clamping strip 7, which is provided at one end with a recess 8, into which the top end of the sleeve 4 fits.



  A clamping bolt 9 is passed through a slotted hole 8 arranged in the horizontal leg of the clamping strip 7, which screw is for instance screwed into a sleeve collapsed in the concrete ground floor. If the sleeve 4 is rotated and displaced from the clamping strip 7 relative to the bolt 9

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 in the correct position, the sleeve 4 can be fixed in this position by tightening the clamping bolt 9. Subsequently, mortar can be poured around the plate 1 and the sleeve 4 and after the hardening of this mortar the sleeve 4 will be at the desired are fixed in the building and the clamping bolt 9 and the clamping strip 7 can be removed.



   Usually, several such markers will be arranged on the ground floor or the like in points selected for this purpose.



   For carrying out measurements from these marking places formed by the tube pieces 4, use can for instance be made of an accessory as shown in fig. 4 and 5. This accessory comprises an annular body 10, which is closed at one end by a transverse wall 11 in the heart of which a small passage 12 has been made. The annular body is designed in such a way that the diameter of the outer circumference of the body 10 is at least substantially equal to the internal diameter of the pipe section 4, so that the body 10 fits snugly into the pipe section 4.



   Between its ends, the body 10 is further provided with a circumferential protruding collar 13, and it is thus possible to slide the annular body into the open top end of the pipe section 4 in two positions rotated by 1800 relative to each other until the ring-forming ring-forming element collar 13 rests on the top edge of the pipe section 4.



   The fitting shown in FIGS. 4 and 5 is further provided with a projection 14 projecting above the wall 11, a bounding surface 15 of which extends diametrically through the centerline of the annular body 10 and through the coinciding centerline of the hole 12.
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 stretches. Marking marks 16 are provided on the boundary surface 15.



   The projection 14 is further provided with two projecting noses 17, which define a V-shaped notch 18, which notch extends perpendicular to the boundary surface 15.



   The fitting shown in Figs. 4 and 5 can be slid with the bottom part of the cylindrical body 10 seen in Fig. 4 into a pipe piece 4 fixed in the floor, the projection 14 projecting above the floor surface. The markings 16 can then

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 when, for example, are used to plot directions with the aid of a theodolite arranged on the relevant floor. A measuring wire can also be passed through the notch 18.



   If the fitting is placed on a pipe piece 4 in the position shown in Fig. 5, the projection 14 will thus lie in this pipe piece and the round passage 12 then visible can be used as a centering point for arranging measuring instruments, for example for drawing up a theodolite. Use can be made expediently of the theodolite support shown in Figs. 21-23. As can be seen from these figures, this theodolite support comprises a main leg 19 with a centering point 20 attached to its lower end. Furthermore, a spirit level 21 is arranged near the lower end of the central leg 19. At the top end, the leg 19 extends to a threaded end 2H and is mounted rotatably in an arm 22 extending obliquely downwards from this top end.



  A shaft 23 extending at right angles to the leg 19 is arranged at the bottom end of the arm. At the end of the shaft 23 are adjustable centering pins? 4 fitted. A handle 25 is attached to the top end of the arm 22. The arm ? 2 furthermore forms a whole with a support plate 26 extending perpendicular to the center line of the leg 19 on which, as shown schematically in fig. 22, a theodolite 27 can be placed. The centolite is centered with respect to the longitudinal axis of the leg 19 by means of thread end 28 projecting above the support plate 26.



   It will be appreciated that to set up the theodolite using the fitting shown in Figures 21-23, the centering tip 20 may be placed in the hole 12 after the fitting shown in Figures 4 and 5 into a tubing 4 is printed.



  The theodolite can then be placed level with the aid of the pins 24 and it will be situated perpendicularly above the heart defined by the pipe section 4.



   A further accessory according to the invention, which can be used efficiently in carrying out the method according to the invention, is shown in Figures 6-8.



   This accessory consists of a round disc 29, the external diameter of which is designed such that this disc is sliding

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 fits into a tubular section 4. The disk 29 is provided with a bore 30 located coaxially with respect to the center line of the disk 29 and two threaded bores 31 extending parallel thereto, into which wing bolts 32 are screwed.



   Using the wing bolts, a ring 33 is applied to the top of the disc 29, the outer diameter of which is greater than the outer diameter of the disc 29, so that the ring 33 will act as a stop, and when the disc 29 is inserted into a pipe section 4 rests on the top edge of the pipe section 4.



   One wing bolt 32 is passed through a slotted hole 34 disposed in the disc, while the other bolt is passed through a slotted hole 35 extending further at one end at the outer circumference of the ring 33. It will be appreciated that, consequently, after the bolts 32 the ring 33 can be rotated relative to the disc and shifted into a position in which the ring 33 is at least largely adjacent to the disc 29, while the ring 33 still remains connected to the disc.



   As shown in Fig. 8, the end of a tape measure 36 can be clamped between the ring 33 and the disc 29, such that, for example, the zero point of the tape measure coincides with the center line of the disc 29 and the bore 30. After that, the disc 29 is placed in a specific pipe section 4, with the aid of this tape measure distances can be set from this marking position occupying a known fixed position, formed by the pipe section 4.



   Starting from the marking places arranged on the ground floor, for example, similar marking places can be arranged perpendicularly above the marking places arranged on the ground floor, as will be described in more detail below. For this purpose, for example, a hole 38 is provided in a form panel 37 of a floor to be arranged higher, at the height of the marking to be arranged in this floor. This hole is covered by means of a plate 39, which is provided with a sleeve 40 projecting under the plate. An aid 41 can be slid into the sleeve 40.

   The fitting 41 includes a cylindrical body 42 that can be snugly received in the tubing 40 and is provided at its top edge with a protruding collar 43 which reduces the downward movement of the cylindrical

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 body 42 in the pipe section 40. Two transparent discs 44 and 45 are arranged in the cylindrical body. The disk 45 is provided with markings, including a cross 46 marking the center of the cylindrical body 42 (Fig. 9A).



   A theodolite can now be placed in the manner described above on a marking place arranged, for example, on the ground floor and arranged so that the line of sight of the theodolite is vertical. The plate 39 is now shifted until the center 46 of the direction 41 is in the line of sight of the theodolite. The plate 39 is then fixed to the formwork plate 37 with nails, for example.



   Measurements can be made on the formwork plate with the accessories according to fig. 4-8 and fig. 21-23.



   Then a tube, for example a tube 47 made of PCV, is fixed on top of the plate 39. For this purpose use is made of the threaded rod 48 shown in Fig. 10 to which two discs 49 arranged near the ends of the tube 47 to be fitted are attached. It will be clear that the length of the pipe 47 will be chosen in accordance with the thickness of the concrete floor to be poured.



   The tube 47 can thereby be clamped to the plate by tightening a nut 50 screwed on the lower end of the threaded rod 48 against a clamping profile 51 located under the formwork plate 37, which is provided with a slotted hole 52 through which the lower end of the threaded rod 48 is stabbed.



   On the upper end of the pipe 47 a thick round, square or rectangular plate 53 rests on the top surface of which a larger sized square or rectangular plate 54 is attached. The internally threaded sleeves 56 are clamped to the underside of the plate 54 against the underside of the plate 54 by means of bolts 55.



   After the pipe pieces 47 and the plates 53 and 54 have been applied to the selected marking locations in the manner described, the relevant storey floor can be poured and after sufficient curing of the concrete the plates 53 and 54 and the threaded rod 48 can be

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 can be removed with the clamping profile 51. As shown in Fig. 11, a passage is then formed in the manufactured floor 57, which passage is delimited by the pipe 47 and the pipe piece 40 projecting under the plate 39. Thereby the pipe piece 47 ends near its top end in a through the plates 53 and 54 in the floor formed recess 58 into which the ends of the threaded sleeves 56 also protrude.



   In this recess 58 a marking member as shown in Figs. 1 and 2 can now again be arranged, after which the recess for fixing this marking member can be filled with mortar or the like.



   However, due to settlements caused during the pouring of the storey floor 57 or the like, it is not guaranteed that the center line of the pipe section 40 and / or the center line of the pipe 47 will still be exactly in line with the center of the pipe piece arranged on the lower floor, which forms a marking place on this lower floor. Therefore, the device shown in Figs. 12-15 can be used efficiently for correctly placing the marker in recess 58.



   The device comprises a base plate 59, which can be secured to a relevant floor by means of bolts 60, which can be screwed into the threaded bushes 56. The base plate thereby supports a horizontally located round rod 61, which is passed through a bore arranged in a sliding piece 62. In bores arranged in this sliding piece 62, two rods 63 and 64 extending parallel to each other and perpendicular to the rod 61 are arranged. The bars 63 and 64 serve to support a support 65, which is provided with a round hole 66.



   As can be seen from Figure 14, the rod 61 extends through a recess provided in a pin 67 'threaded in the slider 62 over a portion of its length. The design is such that if a cap nut 67 screwed onto the pin at 1 is dissolved, the sliding piece 62 can be displaced along the rod 61. When the slider 62 has been brought into the desired position, the slider can then be clamped relative to the base plate by tightening the cap nut 67.

   Furthermore, when the dc nut 67 is dissolved, the slider can be moved

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 62 are not only slid along the rod 61, but are also rotated about the axis of the rod 61 using a bolt 68, which is screwed into a threaded hole in the slider 62, the bottom end of which rests on the base plate 59 .



   As shown in FIG. 15, the rod 64 is passed through a recess of a pin 69 disposed in the slider 62, which is threaded along part of its length. When a cap nut 69 screwed onto the pin 69 'is dissolved, the rods 63 and 64 can be slid in their longitudinal direction relative to the slider 62, while these rods 63 and 64 and the support 65 attached thereto are in that desired position relative to the slider 62 can be secured by tightening the lock nut 69.



   A tubular body 70 (Fig. 13) can now be placed in the hole 66 of the support piece, which body is provided with a protruding collar 71 for limiting the downward movement of the body 70.



  In the lower end of the body 70, a transparent, labeled plate 72 is provided corresponding to the plate 45 shown in Fig. 9A.



   As further shown in Fig. 13, the lower end of the cylindrical body 70 fits snugly into the tubing 4 of a marker whose plate 1 will be placed on the bottom of the recess 58.



   It will be appreciated that by sliding the slider 62 relative to the fixed base plate 59 and sliding the support 65 relative to the slider 62, a shift of the body 70 with the marker 1,4 can be accomplished into the position in which the center of the transparent plate 72 and thus the centerline of the sleeve 4 will be in line with the marking sleeve 4 mounted on the lower floor, using a manner described above above the lower sleeve 4 arranged theodolite.



   After the sleeve 4 has been brought into the desired position, d) hthus 4 and therewith the plate 1 can be rotated about the axis of the sleeve 4 into a position in which the plate 1 has the best possible passage of a tube 47 located underneath it. shutdown. Subsequently, the recess 58 can be filled with mortar or the like, so that after replacement

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 Once this material has been hardened on the relevant floor, a new marking place has been obtained, which in design corresponds to the marking floor formed on the ground floor described above and is positioned perpendicularly above this marking place located on the ground floor.



   It will be clear that by applying this method on the different floors several identical marking places can be formed directly above each other, starting from which further measurements can be made in the horizontal plane.



   The buses 4 arranged in the different floors will generally only be used occasionally for taking measurements. To shield these bushings during the periods that they are not in use, use can be made of cover caps as shown in fig. 16 and 17. Such a cap is provided with a stepped tube piece 73 of which the bottom, the smallest diameter part that fits snugly into a pipe section 4.

   Connected to the upper end of the pipe section 73 is an annular wall 74 extending outwardly from this pipe section, which extends perpendicular to the longitudinal axis of the pipe section 73 and merges with its circumferential wall remote from the pipe section 73 into a sloping downward wall part 75, in which two diametrically opposite recesses 76 are arranged. The outer edge 77 of the wall part 75 extends concentrically about the center line of the pipe part 73 and with its lower edge lies in the same plane as the breast formed at the transition in the different diameters of the pipe part 73.



   The cap seals the opening in the floor formed at the location of the marking point against water running downwards, while the inner wall of the pipe section 4 is kept clean. In doing so, a free passage is maintained at the location of the marking point.



   If desired, however, the passage in the hood can still be closed with a stop (not shown).



   By giving the hood a striking color, good marking of the marking places is achieved, which can be important to prevent accidental damage to these marking places during construction.

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   During a certain phase in the construction, as indicated in Fig. 20, cover layers or cover floors 77 are usually applied to the various floors, such as a storey floor 57. If one wishes to maintain the marking places, one can use the means shown in fig.



  18 and 19 tools shown. These auxiliary means comprise a first pipe piece 78 provided with a socket end 79 on the outer circumference of which protruding ribs 80 are arranged. Included in this socket end 79 is the end of a further pipe piece 81, the internal diameter of which is equal to the internal diameter of the pipe piece 4. The pipe piece 78 is designed such that this pipe piece 78 fits snugly into the pipe piece 4.



   As now shown in Fig. 20, the pipe piece 78 can be pushed into the pipe piece 4 by such a distance that the top end of the pipe piece 81, which can be glued in the socket end 79 of the pipe piece 78, lies in the top boundary surface of the covering floor 77 to be applied. It will be clear that in this way a marking place is again formed in the covering floor 77 with the aid of a pipe section, the internal dimension of which is equal to the internal dimension of the other marking sections forming pipe sections 4.


    

Claims (13)

CONCLUSIONS 1. Method for determining measuring points and staking out distances and directions when constructing a multi-storey building, characterized in that on the first installed floor or the like horizontal construction at least at a certain point a marking place in the in the form of a pipe section and in each higher floor or the like horizontal construction of the building above this pipe section in the floor or the like a passage is provided with a pipe section located coaxially with respect to the first pipe section.  2. Method according to claim 1, characterized in that for placing a pipe piece in a higher floor or the like horizontal construction, a device is attached to this higher empty floor or the like by means of which the pipe piece is angled with each other in two angles. containment devices is adjustable, while  <Desc / Clms Page number 13>  a pipe section located below it is used for centering a theodolite by means of which the position of the pipe section to be applied is checked.  Method according to claim 2, characterized in that an accessory is inserted into the pipe section to be fitted, provided with markings located in the center of the pipe section.  Method according to any one of the preceding claims, characterized in that starting from a pipe section, measurements are carried out in a horizontal plane by placing a disc in which a measuring point is attached.  A method according to any one of the preceding claims, characterized in that an aid provided with a centering opening is placed in the pipe section for carrying out measurements.  Marking means intended for use in the implementation of the method according to any one of the preceding claims, characterized in that the marking means comprises a round plate with a hole in the wall arranged eccentrically with respect to the point of the plate, of which four mutually overlap 900 notches rotated relative to each other are provided, while the tubing is attached to the plate coaxial to the axis of the hole.  Attachment, in particular intended for use in the method according to one of the preceding claims, characterized in that the attachment is provided with an annular body which is provided with a protruding collar between its ends and near one end of a transverse wall with a centering opening and further of a projection with a diametrically extending bounding surface on which markings are arranged.  Attachment according to claim 7, characterized in that the attachment is provided with two protruding noses. which define a V-shaped notch extending perpendicular to the diametrically extending boundary surface.  Attachment for use in the method according to any one of the preceding claims, characterized in that the attachment comprises an annular disc and a ring detachably connected to the disc, which has a larger external diameter than the disc, while in the disc a centering bore has been applied.  <Desc / Clms Page number 14>    Attachment according to claim 9, characterized in that the ring is connected to the slide by means of two wing bolts, one of which is in a closed slotted hole arranged in the ring and one in an open slit hole provided in the ring. located.  Accessory intended for carrying out the method as claimed in any of the foregoing claims, characterized in that the accessory comprises a base plate and a sliding piece slidable relative to this base plate and adjustable in any desired position, which supports an apertured support piece which support piece is movable relative to the sliding piece and adjustable in any desired position in a direction perpendicular to the direction in which the sliding piece is adjustable relative to the base plate.  Attachment according to claim 11, characterized in that the sliding piece is pivotable about the axis along which the sliding piece is slidable relative to the base plate.  13. Accessory for supporting a measuring tool such as a theodolite, characterized in that the accessory comprises a central leg provided with a centering point at its lower end and two adjustable centering pins connected to this central leg, while at the upper end of the a support plate for supporting the measuring tool is provided.