CN114562980B - Portable building calibrator - Google Patents

Abstract

The invention belongs to the field of building measurement, and particularly relates to a portable building calibrator, which comprises a shell, wherein a side of the shell is provided with a side plate, a top plate is fixedly arranged on the side of the shell, which is close to the side plate, a bottom plate is fixedly arranged on the side of the shell, which is far away from the side plate, a horizontal measuring mechanism for measuring whether the shell is placed horizontally is arranged in the top plate, a vertical measuring mechanism for measuring the verticality of a wall body is arranged in the bottom plate on the horizontal measuring mechanism, a horizontal adjusting mechanism for adjusting the levelness of the shell is arranged on the side plate of the shell, the side surface of the shell, which is close to the side plate, is more beneficial to the lamination of the shell and the wall body, a controller for controlling the vertical measuring mechanism is embedded on the side of the side plate, which is far away from the shell, of the top plate, and when a conical electromagnet is fixed by a vertical side quantity sliding block, the vertical standard groove rotates for a certain angle, the inclination angle of the wall body can be observed intuitively through reading on an indication plate, and the inclination of the wall body can be adjusted timely.

Description

Portable building calibrator

Technical Field

The invention belongs to the field of building measurement, and particularly relates to a portable building calibrator.

Background

In the construction engineering, an important measurement item is used when the wall is vertical, whether the wall is vertical or not determines the safety degree of the whole building, the wall vertical side measurement method used in most construction engineering is a hanging wire method, a weight is hung by a rope, whether the wall is vertical or not is judged by observing whether the rope is parallel to the wall or not, but the method always has ' nearly ' judgment when measuring, ' can also judge, so that the measurement degree is approximate, no accurate data and display show that whether the wall is vertical or not, and a recently developed laser leveling instrument can find a horizontal plane and a vertical plane at the same time, but the laser leveling instrument is too fragile, the laser leveling instrument can be inaccurate due to slight collision, and people are required to move the laser leveling instrument at any time in the tile work, so that the method is excessively troublesome.

Disclosure of Invention

The invention aims at solving the problems in the prior art and provides a portable building calibrator which can be used for conveniently and quickly calibrating the verticality of a wall body when a wall is built by a tile worker.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

The utility model provides a portable building calibrator, includes the shell, one side of shell is equipped with along the board, the shell is close to along the board side fixedly and is equipped with the roof, the shell is kept away from along the board side fixedly and is equipped with the bottom plate, be equipped with in the roof and be used for measuring whether the shell is placed horizontally horizontal measuring mechanism, on the horizontal measuring mechanism with be equipped with the perpendicular measuring mechanism of measurement wall body straightness in the bottom plate, be equipped with on the shell along the board and adjust the horizontal adjustment mechanism of shell levelness, the shell is close to along the lateral surface spill of board side, more is favorable to the laminating of shell and wall body, keep away from on the roof the shell along the board side inlay and be equipped with control perpendicular measuring mechanism's controller.

Preferably, the vertical measuring mechanism comprises a vertical side measuring chute with an opening facing the top plate at the middle position in the bottom plate, a vertical side measuring slide block is slidably arranged in the vertical side measuring chute, a standard block is fixedly arranged at the center position of the vertical side measuring slide block, the vertical side measuring chute extends out, the middle position of the vertical side measuring chute is slightly higher than the surrounding height, and when a wall body is vertical, the vertical side measuring slide block can slightly slide towards the direction close to the top plate, so that the verticality is more visual and is observed by a craftsman.

Preferably, the horizontal measuring mechanism comprises a rotating groove with an opening facing the bottom plate, wherein the opening is arranged in the middle position of the top plate, the rotating groove is mutually perpendicular to the vertical side measuring sliding groove, a driven rotating shaft is arranged on the side wall of the rotating groove in a rotating mode, the driven rotating shaft is perpendicular to the vertical side measuring sliding groove, a horizontal sliding block spring with the opening facing the bottom plate is arranged in the rotating groove along the axial direction, a horizontal sliding block is arranged in the horizontal sliding block spring in a sliding mode, and the horizontal sliding block is connected to two pairs of side walls of the horizontal sliding block spring through two horizontal sliding groove parts which are symmetrical with the horizontal sliding block.

Preferably, the vertical measurement mechanism further comprises a soft rope connected with the central position of the bottom plate side, a connecting cover is connected with the other end of the soft rope, the soft rope is connected with the central position of the connecting cover, a signal receiver is embedded in the central position of the connecting cover, the connecting cover is close to the bottom plate side and is in threaded connection with an anti-magnetic balancing weight, the anti-magnetic balancing weight is close to the central position of the connecting cover side and is fixedly provided with a battery box, a battery is mounted in the battery box, the anti-magnetic balancing weight is close to the bottom plate side and is fixedly provided with a conical electromagnet, and an electric wire hole penetrating through the anti-magnetic balancing weight is formed in the middle position of the anti-magnetic balancing weight and is communicated with the conical electromagnet through an electric wire penetrating through the electric wire hole.

Preferably, the vertical measuring mechanism further comprises two openings axially symmetrically arranged in the top plate and corresponding to the driven rotating shaft, the two openings are far away from the vertical marking grooves of the driven rotating shaft, two ends of the driven rotating shaft extend into the two vertical marking grooves, pointers are fixedly arranged at two ends of the driven rotating shaft, and an indicating plate is fixedly arranged on the inner wall, close to the rotating groove side, of each vertical marking groove.

Preferably, the horizontal measuring mechanism further comprises a positioning groove, wherein the positioning groove is far away from the opening, which is arranged at the middle position on the inner wall of the side of the bottom plate, of the horizontal sliding groove, and is towards the horizontal sliding groove, a central positioning sliding block is arranged in the positioning groove in a sliding mode, the central positioning sliding block is connected onto the inner wall of the positioning groove through a positioning spring, the side surface, close to the central positioning sliding block, of the horizontal sliding block is an arc-shaped surface, when the shell is positioned at the horizontal position, the swing of the soft rope is reduced, and the detection structure is more visual.

Preferably, the horizontal adjusting mechanism comprises an annular anti-slip pad fixedly arranged on the edge plate of the shell and close to the side of the bottom plate, two adjusting rods are arranged on the edge plate of the shell, far away from the side of the anti-slip pad, on the side of the anti-slip pad, in relation to the symmetrical threads of the vertical side-measuring sliding grooves, the adjusting rods penetrate through the shell, and each adjusting rod is fixedly provided with an anti-slip sleeve close to the side of the anti-slip pad.

Preferably, the three sides of the shell, which are close to and far away from the shell, along the plate are made of transparent materials, so that a craftsman can conveniently observe the conditions of the anti-magnetic balancing weight and the standard block in the shell and timely react.

The beneficial effects are that: the middle position of the anti-slip pad is hollow, so that the contact area between the anti-slip pad and the wall edge can be avoided, mud or brick scraps are arranged on the wall edge to influence the levelness of the shell, the side surface of the shell, which is close to the edge plate, is in a groove shape, the contact area between the shell and the wall surface can be reduced, and mud or other particles on the wall surface are prevented from influencing detection.

When the horizontal sliding block is reset, the central positioning sliding block slides out to prop against the lowest part of the arc surface of the horizontal sliding block, so that the horizontal sliding block can be prevented from swinging back and forth when the shell is in a horizontal state and the anti-magnetic balancing weight swings randomly due to inertia, the judgment of the levelness of a craftsman is affected, and when the central positioning sliding block slides out, the central positioning sliding block collides with the horizontal sliding block to make a sound, so that the shell can be reminded of the craftsman to be in the horizontal state at the moment, and the working efficiency of the craftsman is improved.

When the shell is in a horizontal state, and after the surface with the groove of the shell is attached to the wall body, the anti-magnetic balancing weight swings towards the inclined direction of the wall body under the action of gravity, meanwhile, the vertical side-measuring sliding block slides towards one inclined side of the wall body, after the conical electromagnet is electrified and magnetic, the vertical side-measuring sliding block is made of iron, when the conical electromagnet moves to form a straight line with the vertical side-measuring sliding block, the conical electromagnet is fixed at the position of the straight line connected with the vertical side-measuring sliding block due to magnetic traction, the vertical standard groove is driven to swing when the anti-magnetic balancing weight swings, when the conical electromagnet is fixed by the vertical side-measuring sliding block, the vertical standard groove rotates by a certain angle, the inclined angle of the wall body can be observed very intuitively through reading on the indication disc, and the inclination of the wall body is adjusted timely.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic diagram of a structural implementation of the present invention;

FIG. 3 is a schematic view of the direction A-A in FIG. 2;

FIG. 4 is a schematic view of the B-B direction of FIG. 2;

FIG. 5 is a schematic view of the direction C-C in FIG. 2;

FIG. 6 is an enlarged schematic view of FIG. 2 at D;

Fig. 7 is an enlarged schematic view of fig. 3 at E.

In the figures, a housing 10; a bottom plate 11; a top plate 12; a non-slip mat 13; an adjusting lever 14; a rotary groove 15; a driven rotation shaft 16; a cord 17; a controller 18; a vertical side measuring chute 19; a vertical side-measuring slide 20; a label block 21; a conical electromagnet 22; antimagnetic balancing weights 23; a horizontal slider spring 24; a horizontal chute 25; a vertical mark slot 26; a pointer 27; an indicator panel 28; an anti-skid sleeve 29; a wire hole 30; an electric wire 31; a battery box 32; a battery 33; a connection cover 34; a signal receiver 35; a horizontal slider 36; a centering slider 37; a positioning groove 38; a positioning spring 39; a vertical measurement mechanism 90; a level measurement mechanism 91; a horizontal adjustment mechanism 92.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that, the azimuth or positional relationship indicated by the terms "inner", "lower", etc. are based on the azimuth or positional relationship shown in the drawings, or the azimuth or positional relationship that the inventive product is conventionally put in use, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific azimuth, be configured and operated in a specific azimuth, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In combination with fig. 2 and 5, a portable building calibrator comprises a housing 10, one side of the housing 10 is provided with a plate, the housing 10 is close to a plate side and is fixedly provided with a top plate 12, the housing 10 is far away from the plate side and is fixedly provided with a bottom plate 11, a horizontal measuring mechanism 91 for measuring whether the housing 10 is placed horizontally is arranged in the top plate 12, a vertical measuring mechanism 90 for measuring the verticality of a wall body is arranged in the bottom plate 11 on the horizontal measuring mechanism 91, a horizontal adjusting mechanism 92 for adjusting the levelness of the housing 10 is arranged on the plate of the housing 10, the housing 10 is close to the concave side of the plate side, the fitting of the housing 10 and the wall body is more facilitated, and a controller 18 for controlling the vertical measuring mechanism 90 is embedded on the plate side of the top plate 12 far away from the housing 10.

Further, referring to fig. 2, the vertical measuring mechanism 90 includes a vertical side measuring chute 19 with an opening facing the top plate 12 at a middle position in the bottom plate 11, a vertical side measuring slide 20 is slidably disposed in the vertical side measuring chute 19, a standard block 21 is fixedly disposed at a center position of the vertical side measuring slide 20, the standard block 2 extends out of the vertical side measuring chute 19, and a height of the middle position of the vertical side measuring chute 19 is slightly higher than a height of the periphery, so that when the wall is vertical, the vertical side measuring slide 20 can slightly slide in a direction close to the top plate 12, and the verticality is more intuitively observed by a craftsman.

Further, referring to fig. 3 and 7, the horizontal measuring mechanism 91 includes a rotary slot 15 with an opening facing the bottom plate 11 and provided in the middle position of the top plate 12, the rotary slot 15 is perpendicular to the vertical side measuring chute 19, a driven rotary shaft 16 is rotatably provided on the side wall of the rotary slot 15, the driven rotary shaft 16 is perpendicular to the vertical side measuring chute 19, a horizontal slider spring 24 with an opening facing the bottom plate 11 is provided in the rotary slot 15 along the axial direction, a horizontal slider 36 is slidably provided in the horizontal slider spring 24, and the horizontal slider 36 is connected to two pairs of side walls of the horizontal slider spring 24 through two horizontal runners 25 symmetrical with respect to the horizontal slider 36.

Further, referring to fig. 6, the vertical measuring mechanism 90 further includes a flexible rope 17 connected to the central position of the horizontal slider 36 near the bottom plate 11, a connection cover 34 is connected to the other end of the flexible rope 17, the flexible rope 17 is connected to the central position of the connection cover 34, a signal receiver 35 is embedded in the central position of the connection cover 34, the connection cover 34 is connected to the anti-magnetic balancing weight 23 near the bottom plate 11, a battery box 32 is fixedly arranged at the central position of the anti-magnetic balancing weight 23 near the connection cover 34, a battery 33 is mounted in the battery box 32, a conical electromagnet 22 is fixedly arranged near the bottom plate 11, an electric wire hole 30 penetrating through the anti-magnetic balancing weight 23 is formed in the middle position of the anti-magnetic balancing weight 23, and the battery 33 is communicated with the conical electromagnet 22 through the electric wire hole 30 by passing through the electric wire 31.

Further, referring to fig. 3, the vertical measuring mechanism 90 further includes two vertical standard grooves 26 which are axially symmetrically arranged in the top plate 12 and are far away from the driven rotating shaft 16, two ends of the driven rotating shaft 16 extend into the two vertical standard grooves 26, pointers 27 are fixedly arranged at two ends of the driven rotating shaft 16, and an indication disc 28 is fixedly arranged on an inner wall of each vertical standard groove 26, which is close to the side of the rotating groove 15.

Further, referring to fig. 7, the horizontal measuring mechanism 91 further includes a positioning slot 38 with an opening facing the horizontal chute 25 and provided at a middle position on a side inner wall of the horizontal chute 25 far from the bottom plate 11, a central positioning slider 37 is slidably provided in the positioning slot 38, the central positioning slider 37 is connected to an inner wall of the positioning slot 38 through a positioning spring 39, a side surface of the horizontal slider 36, which is close to the central positioning slider 37, is an arc surface, and when the housing 10 is located at the horizontal position, the swing of the flexible rope 17 is reduced, so that the detection structure is more visual.

Further, referring to fig. 2 and 4, the horizontal adjusting mechanism 92 includes an annular anti-slip pad 13 fixedly disposed on a side of the casing 10 along the plate, which is close to the bottom plate 11, and two adjusting rods 14 are disposed on a side of the casing 10 along the plate, which is far away from the anti-slip pad 13, symmetrically threaded with respect to the vertical side measuring chute 19, the adjusting rods 14 penetrate through the casing 10, and an anti-slip sleeve 29 is fixedly disposed on a side of each adjusting rod 14, which is close to the anti-slip pad 13.

Further, with reference to fig. 1, three sides of the casing 10, which are close to the edge plate far away from the casing 10, are made of transparent materials, so that a craftsman can conveniently observe the conditions of the anti-magnet balancing weight 23 and the standard block 21 in the casing 10 and timely react.

Initial state: the antimagnetic weight 23 is in a vertical state, the vertical side measuring slide block 20 is positioned in the middle of the vertical side measuring slide groove 19, the horizontal slide block 36 is positioned in the middle of the horizontal slide groove 25, the positioning spring 39 is in a normal state, and the two horizontal slide block springs 24 are in a normal state.

Working principle: the edge plate of the shell 10 is horizontally hung on the wall edge, the shell 10 is made to be close to the wall surface, when the edge plate of the shell 10 is hung on the wall edge, the anti-slip pad 13 is in contact with the wall edge, the shell 10 is prevented from sliding, the middle position of the anti-slip pad 13 is hollow, the contact area between the anti-slip pad 13 and the wall edge can be avoided, mud or brick scraps on the wall edge enable the levelness of the shell 10 to be influenced, the shell 10 is close to the side surface of the edge plate and is in a groove shape, the contact area between the shell 10 and the wall surface can be reduced, and mud or other particles on the wall surface are prevented from influencing detection.

When the wall edge fails to reach the level, the gravity of the anti-magnetic balancing weight 23 drives the horizontal sliding block 36 to slide to one side of the horizontal sliding block spring 24, the horizontal sliding block 36 slides to one side, the adjusting rod 14 on one side is rotated, the adjusting rod 14 moves to the wall edge to drive the corresponding side of the shell 10 to lift up, when the shell 10 is in the horizontal state, the horizontal sliding block 36 returns to the middle position of the horizontal sliding groove 25, the central positioning sliding block 37 slides into the positioning groove 38 when the horizontal sliding block 36 resets, the central positioning sliding block 37 slides out and abuts against the lowest part of the arc surface of the horizontal sliding block 36, so that the horizontal sliding block 36 can swing back and forth when the shell 10 is in the horizontal state due to free inertia swing, judgment of the levelness is affected, and when the central positioning sliding block 37 slides out, the shell 10 of a tile can be in the horizontal state due to the fact that the collision between the central positioning sliding block 37 and the horizontal sliding block 36 is reminded, and the working efficiency of the tile maker 10 can be improved.

When the shell 10 is in a horizontal state, and after the surface of the shell 10 with a groove is attached to a wall body, the anti-magnetic balancing weight 23 swings towards the inclined direction of the wall body under the action of gravity, the anti-magnetic balancing weight 23 is always in a vertical state under the traction of the soft rope 17, the vertical side-measuring sliding block 20 slides towards one inclined side of the wall body while the anti-magnetic balancing weight 23 swings, the vertical side-measuring sliding block 20 drives the standard block 21 to slide simultaneously, the inclined direction of the wall body can be intuitively judged through the position of the standard block 21, a button on the controller 18 is pressed, the controller 18 gives a signal to the signal receiver 35, the battery 33 is electrified to the conical electromagnet 22, the conical electromagnet 22 shows magnetism, and when the conical electromagnet 22 drives to form a straight line with the vertical side-measuring sliding block 20, the conical electromagnet 22 is fixed at the position of the straight line connected with the vertical side-measuring sliding block 20 due to the traction of magnetism, the driven rotating shaft 16 is driven by the soft rope 17 to rotate when the anti-magnetic balancing weight 23 swings, the vertical rotating shaft 16 drives the vertical standard groove 26 to swing, when the conical electromagnet 22 is fixed by the vertical side-measuring sliding block 20, the vertical side-measuring sliding block 20 rotates, a certain angle is directly, and the inclination angle can be directly observed on the wall body through observing, and the inclination angle can be directly indicated.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the invention.

Claims (4)

1. A portable building calibrator comprising a housing (10), characterized in that: a side of the shell (10) is provided with a side plate, the shell (10) is fixedly provided with a top plate (12) close to the side plate, the shell (10) is far away from the side plate and is fixedly provided with a bottom plate (11), a horizontal measuring mechanism (91) for measuring whether the shell (10) is placed horizontally is arranged in the top plate (12), a vertical measuring mechanism (90) for measuring the verticality of a wall body is arranged on the horizontal measuring mechanism (91) and in the bottom plate (11), the side plate of the shell (10) is provided with a horizontal adjusting mechanism (92) for adjusting the levelness of the shell (10), the side plate side of the shell (10) far away from the shell (12) is embedded with a controller (18) for controlling the vertical measuring mechanism (90);

The vertical measuring mechanism (90) comprises a vertical side measuring chute (19) with an opening facing the top plate (12) at the middle position in the bottom plate (11), a vertical side measuring slide block (20) is slidably arranged in the vertical side measuring chute (19), a standard block (21) is fixedly arranged at the center position of the vertical side measuring slide block (20), the vertical side measuring chute (19) extends out from the (2), and the height of the middle position of the vertical side measuring chute (19) is slightly higher than the height of the periphery;

The horizontal measuring mechanism (91) comprises a rotating groove (15) with an opening facing the bottom plate (11) and arranged in the middle position of the top plate (12), the rotating groove (15) is mutually perpendicular to the vertical side measuring chute (19), a driven rotating shaft (16) is arranged on the side wall of the rotating groove (15) in a rotating mode, the driven rotating shaft (16) is perpendicular to the vertical side measuring chute (19), a horizontal sliding block spring (24) with the opening facing the bottom plate (11) is arranged in the rotating groove (15) along the axial direction, a horizontal sliding block (36) is arranged in the horizontal sliding block spring (24) in a sliding mode, and the horizontal sliding block (36) is connected to two pairs of side walls of the horizontal sliding block spring (24) through two horizontal sliding grooves (25) symmetrical to the horizontal sliding block (36);

The vertical measuring mechanism (90) further comprises a soft rope (17) connected with the horizontal sliding block (36) at the center position close to the side of the bottom plate (11), a connecting cover (34) is connected with the other end of the soft rope (17), the soft rope (17) is connected with the center position of the connecting cover (34), a signal receiver (35) is embedded in the center position of the connecting cover (34), an anti-magnetic balancing weight (23) is connected with the side of the connecting cover (34) close to the side of the bottom plate (11) through threads, a battery box (32) is fixedly arranged at the center position of the anti-magnetic balancing weight (23) close to the side of the connecting cover (34), a battery (33) is arranged in the battery box (32), a conical electromagnet (22) is fixedly arranged at the side of the anti-magnetic balancing weight (23) close to the side of the bottom plate (11), a wire hole (30) penetrating through the anti-magnetic balancing weight (23) is arranged at the middle position of the anti-magnetic balancing weight (23), and the battery (33) is communicated with the conical electromagnet (22) through the wire hole (31);

Perpendicular measuring mechanism (90) still include in roof (12) about two openings that driven pivot (16) axial symmetry were equipped with keep away from perpendicular standard groove (26) of driven pivot (16), the both ends of driven pivot (16) stretch to two in perpendicular standard groove (26), the both ends of driven pivot (16) are all fixed and are equipped with pointer (27), every perpendicular standard groove (26) are close to all fixed on the inner wall of change groove (15) side are equipped with indicator panel (28).

2. A portable building calibrator according to claim 1, wherein: the horizontal measuring mechanism (91) further comprises a positioning groove (38) which is arranged on the side inner wall of the bottom plate (11) and is far away from the horizontal chute (25) and provided with an opening facing the horizontal chute (25), a central positioning slide block (37) is arranged in the positioning groove (38) in a sliding mode, the central positioning slide block (37) is connected to the inner wall of the positioning groove (38) through a positioning spring (39), and the side face, close to the central positioning slide block (37), of the horizontal slide block (36) is an arc-shaped face.

3. A portable building calibrator according to claim 2, wherein: the horizontal adjusting mechanism (92) comprises an annular anti-slip pad (13) fixedly arranged on the edge plate of the shell (10) and close to the side of the bottom plate (11), two adjusting rods (14) are arranged on the edge plate of the shell (10) and far away from the side of the anti-slip pad (13) and are symmetrically threaded relative to the vertical side-measuring sliding groove (19), the adjusting rods (14) penetrate through the shell (10), and anti-slip sleeves (29) are fixedly arranged on the side, close to the anti-slip pad (13), of each adjusting rod (14).

4. A portable building calibrator according to claim 3, wherein: the housing (10) is transparent material on three sides along the plate, near and away from the housing (10).