CN216587791U - Verticality control device - Google Patents

Abstract

The utility model provides a straightness controlling means hangs down for solve and detect the straightness that hangs down with the plumb bob and influence constructor's technical problem of building by laying bricks or stones stand efficiency. The mounting device comprises two mounting rods, wherein rod sections of the mounting rods, which are close to two ends, are bent towards the same side of the mounting rods at an angle vertical to the mounting rods, so that two bending sections are formed, the four bending sections are opposite to each other in pairs, and the two opposite bending sections are detachably and fixedly connected; the connecting rod comprises four connecting rods, the two connecting rods are arranged on one of the mounting rods, the two connecting rods are positioned between two bending sections on the mounting rod, the two connecting rods are rotatably connected with the mounting rod, the other two connecting rods are arranged on the other mounting rod, the other two connecting rods are positioned between two bending sections on the other mounting rod, the other two connecting rods are rotatably connected with the other mounting rod, and each connecting rod is fixedly provided with a circular leveling disc.

Description

Verticality control device

Technical Field

The utility model relates to the technical field of construction, in particular to a verticality control device.

Background

In the construction, constructor need be built by laying bricks or stones the stand occasionally, the straightness that hangs down of stand needs to be detected to the in-process of building by laying bricks or stones the stand, prior art generally adopts plumb bob mode to detect, roughly, with the help of a plumb line, connect the gravity hammer at plumb line one end, the top of the stand of building by laying bricks or stones is fixed to the other end with the plumb line, gravity hammer tractive plumb line under the action of gravity this moment, thereby make the plumb line keep vertical state, constructor only need observe and measure the spacing size of plumb line and stand side that keeps vertical state this moment, just can judge the straightness that hangs down of the stand of building by laying bricks or stones through measuring this interval and whether within the error band of allowwing.

Still there is an objective defect when above-mentioned mode, constructor need fix the top to the stand with the one end of lifting rope, later transfer the lifting rope again and make the lifting rope vertical, and constructor need place the top of stand with the fragment of brick ceaselessly when building by laying bricks or stones the stand and build by laying bricks or stones, when building by laying bricks or stones the position of fixed suspension wire, constructor need shift the suspension wire to other positions in stand top and fix, whole building by laying bricks or stones the position that the process need frequently alternate the suspension wire, consequently this kind of mode can influence constructor to building by laying bricks or stones efficiency of stand.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a verticality control device aiming at the defects of the prior art, and the verticality control device is used for solving the technical problem that the verticality of an upright post is detected by adopting a plumb bob mode, so that the construction efficiency of a constructor for building the upright post is influenced.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a squareness control apparatus comprising:

the installation rod comprises two installation rods, the rod section of each installation rod close to the two ends is bent towards the same side of the installation rod at an angle vertical to the installation rod, so that two bending sections are formed at the two ends of the installation rod, the four bending sections are opposite in pairs, and the two opposite bending sections are fixedly connected in a detachable mode;

the butt-joint rods are four, wherein two butt-joint rods are arranged on one of the installation rods, the two butt-joint rods are located between two bending sections on the installation rod, the two butt-joint rods are rotatably connected with the installation rod, the other two butt-joint rods are arranged on the other installation rod, the other two butt-joint rods are located between two bending sections on the other installation rod, the other two butt-joint rods are rotatably connected with the other installation rod, each butt-joint rod is fixedly provided with a circular leveling disc, and the circular leveling disc surface is perpendicular to the corresponding butt-joint rods.

The working principle is as follows:

the construction process often encounters the stand columns built by bricks, the stand columns are generally rectangular in cross section, and constructors firstly build the stand columns to a certain height from bottom to top to ensure that the verticality of the stand columns in the height is within an allowable range.

Then, the constructor places the two installation rods close to the two opposite side edges of the upright post, then the constructor makes the two opposite bending sections form correspondence, and at the moment, the two installation rods and the four bending sections are spliced to approximately form a rectangular frame structure matched with the upright post.

Then constructor suitably rotates the butt joint pole, can be based on whether the bubble in the round level structure on the butt joint pole is placed in the middle this moment to judge whether vertical the butt joint pole, after rotating the butt joint pole and making the butt joint pole vertical, constructor this moment with four butt joint poles respectively with the lateral wall butt of stand, then constructor again with two liang of relative two buckle sections fixed connection.

Four this moment the side of butt joint pole and stand butt just is the border of building by laying bricks or stones of stand, and constructor only need upwards build by laying bricks or stones along the side of butt joint pole and stand butt can.

After the construction of the section of the upright post is finished, a constructor disconnects the two opposite bending sections, then the abutting rods are repeatedly installed in the mode, so that the construction of the adjacent sections of the upright post is carried out, and after the construction is finished, the constructor disconnects the two opposite bending sections, so that the structure disclosed by the utility model is taken down from the upright post.

The utility model has the beneficial effects that:

according to the design mode, the constructors can rotate to adjust the abutting rods to abut against the side edges of the constructed upright columns, and then the constructors only need to continue constructing along one side of the abutting ends of the abutting rods and the upright columns upwards.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic sectional view at a section a-a in fig. 1.

Description of reference numerals: the mounting rod 1, the bending section 2, the abutting rod 3, the round leveling disc 4, the mounting hole 5, the screw rod 6, the mounting block 7, the ball 8, the sliding groove 9, the threaded hole 10 and the bolt 11.

Detailed Description

The technical solution of the present invention is further explained with reference to the drawings and the embodiments.

As shown in fig. 1 and 2, a verticality controlling apparatus includes:

installation pole 1, installation pole 1 are two, and every installation pole 1 is close to the pole section at both ends and all buckles with this installation pole 1 vertically angle towards this installation pole 1 with one side, and then forms two buckling sections 2 at the both ends of installation pole 1, and four 2 two liang of relative buckling sections, and detachably fixed connection between two relative buckling sections 2.

The butt joint pole 3, butt joint pole 3 is four, wherein two butt joint poles 3 locate on one of them installation pole 1, and two these butt joint poles 3 are located between two kinks 2 on this installation pole 1, two these butt joint poles 3 all rotate with this installation pole 1 to be connected, two other butt joint poles 3 locate on another installation pole 1, and two other these butt joint poles 3 are located between two kinks 2 on another this installation pole 1, and two other these butt joint poles 3 all rotate with another this installation pole 1 to be connected, all be fixed with circle levelling disc 4 on every butt joint pole 3, this circle levelling disc 4 quotation is perpendicular with the butt joint pole 3 that corresponds.

As shown in fig. 2, two opposite bending sections 2 are provided with mounting holes 5 with internal threads along the bending sections 2, the thread directions of the two mounting holes 5 are opposite, the bending tool further comprises a screw rod 6, the screw rod 6 is provided with external threads matched with the two mounting holes 5 on the rod sections close to the two ends, and the rod sections close to the two ends of the screw rod 6 are respectively in threaded connection with the two mounting holes 5.

Constructor is through rotatory the lead screw 6 to can adjust the overall length between lead screw 6 and two kinks 2, thereby this kind of mode not only can realize carrying out detachably to two relative kinks 2 and this kind of mode can adjust the overall length between lead screw 6 and two kinks 2, thereby can further adapt to and build the construction to the stand that has different cross section sizes.

As shown in fig. 2, be equipped with two installation pieces 7 on the installation pole 1 and between two kinks 2 on this installation pole 1, every installation piece 7 is embedded all to have a ball 8, and two buttjunction poles 3 that correspond with installation pole 1 are fixed respectively and are worn to establish two balls 8, and this ball 8 rotates with the butt pole 3 that is used for driving it to correspond, and constructor grips butt pole 3 and rotate butt pole 3, and the setting of ball 8 can make the rotation range of butt pole 3 bigger to more make things convenient for constructor to adjust to vertical state through circle levelling disc 4 with butt pole 3.

As shown in fig. 2, the installation block 7 is slidably connected with the corresponding installation rod 1, and the installation block 7 can slide along the installation rod 1, at this time, a constructor can slide the butt rod 3 through the installation block 7, the constructor can perform verticality detection on different parts of the same side of the column in the setting mode, and the adjustment mode is matched with the adjustment of the lead screw 6, so that the adjustment range of the four butt rods 3 becomes larger, and the construction of the columns with different cross section sizes is further satisfied.

As shown in fig. 2, the mounting rod 1 is provided with a sliding groove 9 along the mounting rod 1, two mounting blocks 7 corresponding to the mounting rod 1 are arranged in the sliding groove 9, and the two mounting blocks 7 can slide along the sliding groove 9. The installation rod 1 is provided with a plurality of threaded holes 10 distributed along the installation rod 1, the threaded holes 10 are communicated with the sliding groove 9, two bolts 11 matched with the threaded holes 10 are arranged on the installation rod 1, the two bolts 11 penetrate through the two threaded holes 10, the two bolts 11 are respectively in threaded connection in the two installation blocks 7, and the two bolts 11 are respectively abutted to the balls 8 on the two installation blocks 7. Constructor can lock ball 8 after will rotating and installation piece 7 relatively through bolt 11, and then reach the effect of locking butt pole 3 after the rotation, thereby this kind of mode can avoid constructor to make butt pole 3 take place the bad phenomenon that shifts to butt pole 3 touching.

As shown in fig. 2, a plurality of the threaded holes 10 on two installation rods 1 correspond to each other one by one, and in actual masonry construction, a constructor mostly uses the corner position of a column as a control part for controlling the verticality of the column, so that the threaded holes 10 on two installation rods 1 correspond to each other one by one, so that the constructor can slidably adjust four of the butt rods 3, and then the four butt rods 3 are sequentially connected to form a rectangular frame structure, and at the moment, the constructor can adjust the four butt rods 3 to the four corner positions of the column, thereby further improving the control effect on the verticality of the column. The butt-joint rod 3 is of a scale structure with scales along the axial direction, and constructors can determine the height of the built upright column according to the scale reading of the butt-joint rod 3, so that the height of the built upright column can be measured more conveniently.

The working principle is as follows:

the construction process often encounters the stand columns built by bricks, the stand columns are generally rectangular in cross section, and constructors firstly build the stand columns to a certain height from bottom to top to ensure that the verticality of the stand columns in the height is within an allowable range.

Then, the constructor places the two installation rods 1 close to the two opposite sides of the upright column, and then the constructor makes the two opposite bending sections 2 form corresponding connection, and at the moment, the two installation rods 1 and the four bending sections 2 are spliced and then approximately form a rectangular frame structure matched with the upright column.

Then constructor slides the butt rod 3 appropriately, thereby makes four the butt rod 3 is in four corner positions of stand, later constructor rotates butt rod 3, can be based on whether the bubble in the round level dish 4 structure on the butt rod 3 is placed in the middle this moment to judge whether butt rod 3 is vertical, when rotating butt rod 3 and make the vertical back of butt rod 3, constructor precession bolt 11, thereby make bolt 11 and 8 butts of ball, then constructor is rotatory lead screw 6, thereby make two installation pole 1 drive four butt rods 3 and be close to towards the stand, until four butt rods 3 respectively with the lateral wall butt of stand.

Four this moment the side of butt joint pole 3 and stand butt just is the border of building by laying bricks or stones of stand, and constructor only need upwards build by laying bricks or stones along the side of butt joint pole 3 and stand butt can.

After the building of the section of the upright post is finished, a constructor can disconnect the two opposite bending sections 2 by rotating the screw rod 6, then repeatedly install the abutting rods 3 in the mode, so that the building construction of the adjacent sections of the upright post is carried out, and after the construction is finished, the constructor can disconnect the two opposite bending sections 2, so that the structure can be taken down from the upright post.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (8)

1. A verticality control apparatus, comprising:

the mounting device comprises mounting rods (1), wherein the number of the mounting rods (1) is two, rod sections, close to two ends, of each mounting rod (1) bend towards the same side of the mounting rod (1) at an angle vertical to the mounting rod (1), two bending sections (2) are formed at two ends of the mounting rod (1), the four bending sections (2) are opposite to each other in pairs, and the two opposite bending sections (2) are fixedly connected in a detachable mode;

the utility model discloses a supporting pole, including supporting pole (3), supporting pole (3) are four, wherein one of them installation pole (1) is located to two supporting poles (3), and two these supporting poles (3) are located between two kinks (2) on this installation pole (1), two these supporting poles (3) all rotate with this installation pole (1) to be connected, another two supporting poles (3) are located on another installation pole (1), and two these supporting poles (3) are located between two kinks (2) on another this installation pole (1), and two these other supporting poles (3) all rotate with another this installation pole (1) to be connected, all be fixed with circle levelling disc (4) on every supporting pole (3), this circle levelling disc (4) quotation is perpendicular with corresponding supporting pole (3).

2. A verticality control apparatus according to claim 1, wherein: all open along buckle section (2) on two relative buckle sections (2) and have had internal screw thread mounting hole (5), and the screw thread opposite direction of two mounting holes (5), still include lead screw (6), be equipped with respectively on the pole section that lead screw (6) are close to both ends with the external screw thread of two mounting hole (5) adaptations, lead screw (6) are close to the pole section at both ends respectively threaded connection in two mounting holes (5).

3. A verticality control apparatus according to claim 1, wherein: install and be equipped with two installation pieces (7) on pole (1) and between two kinks (2) on this installation pole (1), every installation piece (7) is embedded to have all been inlayed ball (8), and two butt rod (3) that correspond with installation pole (1) are fixed respectively and are worn to establish two ball (8), and this ball (8) rotate with butt rod (3) that are used for driving it to correspond.

4. A verticality control apparatus according to claim 3, wherein: the mounting blocks (7) are connected with the corresponding mounting rods (1) in a sliding mode, and the mounting blocks (7) can slide along the mounting rods (1).

5. A squareness control apparatus according to claim 4 characterised in that: the mounting rod (1) is provided with a sliding groove (9) along the mounting rod (1), two mounting blocks (7) corresponding to the mounting rod (1) are arranged in the sliding groove (9), and the two mounting blocks (7) can slide along the sliding groove (9).

6. A verticality control apparatus according to claim 5, wherein: the installation rod (1) is provided with a plurality of threaded holes (10) distributed along the installation rod (1), the threaded holes (10) are communicated with the sliding grooves (9), two bolts (11) matched with the threaded holes (10) are arranged on the installation rod (1), the two bolts (11) penetrate through the two threaded holes (10), the two bolts (11) are respectively in threaded connection with the two installation blocks (7), and the two bolts (11) are respectively abutted to the balls (8) on the two installation blocks (7).

7. A verticality control apparatus according to claim 6, wherein: the threaded holes (10) on the two mounting rods (1) correspond to one another.

8. A verticality control apparatus according to claim 1, wherein: the butt-joint rod (3) is of a scale structure with scales along the axial direction.

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