阅读说明：本技术 一种信息工程监理垂直度检测装置 (Information engineering prison straightness detection device that hangs down ) 是由 孙显红 于 2021-07-08 设计创作，主要内容包括：本发明涉及垂直度检测技术领域,尤其涉及一种信息工程监理垂直度检测装置。所述信息工程监理垂直度检测装置包括立柱架,内设有升降组件；横梁,位于所述立柱架内的升降组件上,且所述横梁通过升降组件进行高度调节；还包括：侧移组件,位于所述横梁上,且通过所述侧移组件沿着检测墙壁垂直下滑使得横梁上安装的波动测量器显示电势差变化。本发明提供的信息工程监理垂直度检测装置利用侧移组件和波动测量器,使得金属测量板在遇到垂直度不合格的墙壁时随着滑动连接块滑动,因此金属测量板与在均匀电场内的位置发生变化,此时调控面板内设的电压表数值出现变化,通过观测电压表上电压的变化可以快速判断墙壁垂直面平整度是否符合建筑要求。(The invention relates to the technical field of perpendicularity detection, in particular to an information engineering supervision perpendicularity detection device. The information engineering supervision perpendicularity detection device comprises a stand column frame, and a lifting assembly is arranged in the stand column frame; the cross beam is positioned on the lifting assembly in the upright post frame and is subjected to height adjustment through the lifting assembly; further comprising: and the side shifting assembly is positioned on the cross beam and vertically slides down along the detection wall through the side shifting assembly, so that the fluctuation measurer arranged on the cross beam displays the change of the potential difference. The information engineering supervision verticality detection device provided by the invention utilizes the side shift assembly and the fluctuation measurer to enable the metal measuring plate to slide along the sliding connection block when encountering the wall with unqualified verticality, so that the position of the metal measuring plate in a uniform electric field changes, the numerical value of a voltmeter arranged in the control panel changes at the moment, and whether the flatness of the vertical surface of the wall meets the building requirements or not can be quickly judged by observing the change of the voltage on the voltmeter.)

1. The utility model provides an information engineering prison straightness detection device that hangs down, includes:

the upright post frame (1) is internally provided with a lifting component (6);

the cross beam (2) is positioned on the lifting component (6) in the upright post frame (1), and the height of the cross beam (2) is adjusted through the lifting component (6); it is characterized by also comprising:

and the side shift assembly (4) is positioned on the cross beam (2), and the side shift assembly (4) vertically slides down along the detection wall so that a fluctuation measurer (5) arranged on the cross beam (2) displays the change of the potential difference.

2. The information engineering supervision verticality detection device according to claim 1, wherein the lateral movement assembly (4) comprises a sliding rod (41), a sliding connection block (42), a pressing spring (43), a curved mounting frame (44) and a wall sliding part (45), the sliding rod (41) is fixedly installed in a through cavity (3) formed in the cross beam (2), the sliding rod (41) is sleeved with the sliding connection block (42) in a sliding connection mode, the curved mounting frame (44) is fixedly welded to both side walls of the sliding connection block (42), the wall sliding part (45) is installed between the two curved mounting frames (44), the pressing spring (43) is connected to the sliding rod (41) in series, one end of the pressing spring (43) is fixedly connected with the inner wall of the through cavity (3) close to the column frame (1), and the other end of the pressing spring (43) is fixedly connected with the inner wall of the sliding connection block (42) close to the column frame (1) .

3. The information engineering proctoring perpendicularity detection device as claimed in claim 2, wherein two sets of the curved mounting brackets (44) extend out of and are spaced apart from the ends of the cross beam (2), and a detachable wall slider (45) is mounted between the curved mounting brackets (44); in particular, the method comprises the following steps of,

the wall sliding part (45) adopts any one of a roller or a roller, and two sides of the curved mounting rack (44) are fixedly connected with a connecting rack thread of the roller or the roller through screws.

4. The information engineering supervision perpendicularity detection device according to claim 2, characterized in that the through cavities (3) formed in the sliding connection block (42) and the cross beam (2) are both in a cross shape, and the sliding connection block (42) is arranged in the through cavity (3) and is connected with the through cavity (3) in a sliding manner.

5. The information engineering supervision perpendicularity detection device according to claim 2, characterized in that the fluctuation measurer (5) comprises two fixing plates (51), a capacitor plate (52) and a metal measuring plate (53), wherein the two fixing plates (51) are fixedly arranged on the cross beam (2), the two fixing plates (51) are respectively arranged on two sides of a sliding cavity formed in the top of the cross beam (2), and the capacitor plate (52) is arranged in each of the two fixing plates (51); in particular, the method comprises the following steps of,

a positive terminal is arranged in the fixing plate (51) far away from the upright post frame (1) and electrically connected with the capacitor plate (52), and a negative terminal is arranged in the fixing plate (51) close to the upright post frame (1) and electrically connected with the capacitor plate (52);

the metal measuring plate (53) is fixedly embedded on the sliding connection block (42), and the metal measuring plate (53) extends out of a sliding cavity formed in the top of the cross beam (2) and stands between the two capacitance plates (52).

6. The information engineering supervision perpendicularity detection device according to claim 5, wherein the fluctuation measurer (5) further comprises a transparent shield (54) and a control panel (55), the transparent shield (54) is fixedly embedded on the cross beam (2) and covers the two fixing plates (51), the control panel (55) is fixedly installed on the cross beam (2), and the control panel (55) is electrically connected with the capacitance plate (52) and the metal measuring plate (53) through wires; in particular, the method comprises the following steps of,

a voltmeter is arranged in the regulation and control panel (55), the positive pole of the voltmeter is electrically connected with the measuring terminal on the metal measuring plate (53), and the negative pole of the voltmeter is electrically connected with the grounding wire arranged in the upright post frame (1) through a conducting wire;

a direct current circuit is arranged in the control panel (55) to promote a uniform electric field from left to right to appear between the two capacitor plates (52) on the fixing plate (51).

7. The information engineering prison perpendicularity detection device according to claim 1, wherein the lifting assembly (6) comprises a lead screw (61), a threaded connection block (62) and a driving piece (63), the lead screw (61) is rotatably installed in an installation cavity (7) formed in the column frame (1) through a bearing, the threaded connection block (62) in threaded connection is sleeved on the lead screw (61), a connecting end of the threaded connection block (62) penetrates through a side sliding cavity (8) formed in the side wall of the column frame (1) and is fixedly connected with the cross beam (2), and the driving piece (63) is installed on the column frame (1) and is used for driving the lead screw (61) to rotate.

8. The information engineering prison straightness detection device that hangs down of claim 7, characterized in that driving piece (63) includes driving motor (631), driving gear (632), drive chain (633) and driven gear (634), driving motor (631) passes through frame fixed mounting on column frame (1), and the output fixed mounting of driving motor (631) has driving gear (632), driven gear (634) fixed cup joints at the top of lead screw (61), and driven gear (634) and driving gear (632) pass through drive chain (633) meshing connection.

9. The information engineering supervision perpendicularity detection device according to claim 1, characterized in that a support component (9) is mounted at the bottom of the column frame (1), the support component (9) comprises a support base plate (91), a half-arc protrusion (92) and a shock-proof sizing block (93), four half-arc protrusions (92) are uniformly distributed on the support base plate (91), and the shock-proof sizing block (93) is mounted at the bottom of each half-arc protrusion (92).

10. The information engineering proctoring perpendicularity detection device as claimed in claim 1, wherein scale marks (9a) are provided on the side wall of the cross beam (2).

Technical Field

The invention relates to the technical field of perpendicularity detection, in particular to an information engineering supervision perpendicularity detection device.

Background

The angle formed between the axis of the outer wall of the building and the ground is called the perpendicularity of the building, at present, for acceptance of building engineering, the perpendicularity is an important index for evaluating the quality of the building engineering, whether the perpendicularity meets the standard or not affects the bearing capacity of the building, and if the perpendicularity is not within an allowable error range, the bearing capacity of the building is too large, and accidents are easy to happen.

Among the relevant straightness detection device that hangs down, be provided with and be used for a plane of laminating on planar building body, can keep vertical flagging hammerhead in the combining device to carry out the straightness that hangs down to the building and detect, however these need someone be surveyd, lead to the personnel that do not have work experience to appear the erroneous judgement, and some comparatively slight difference people eyes are difficult to discern, thereby can influence the measuring result.

Therefore, it is necessary to provide a new device for detecting perpendicularity in information engineering supervision to solve the above technical problems.

Disclosure of Invention

In order to solve the technical problem, the invention provides an information engineering supervision perpendicularity detection device capable of rapidly detecting perpendicularity.

The information engineering proctoring perpendicularity detection device provided by the invention comprises:

the upright post frame is internally provided with a lifting component;

the cross beam is positioned on the lifting assembly in the upright post frame and is subjected to height adjustment through the lifting assembly; further comprising:

and the side shifting assembly is positioned on the cross beam and vertically slides down along the detection wall through the side shifting assembly, so that the fluctuation measurer arranged on the cross beam displays the change of the potential difference.

Preferably, the subassembly is moved to side includes slide bar, sliding connection piece, pressfitting spring, bent type mounting bracket and wall slider, slide bar fixed mounting is in the logical intracavity that the crossbeam was seted up, just the cover is equipped with sliding connection's sliding connection piece on the slide bar, the equal fixed welding of both sides wall of sliding connection piece has bent type mounting bracket, and two sets of install the wall slider between the bent type mounting bracket, the pressfitting spring has concatenated on the slide bar, just the one end of pressfitting spring and the inner wall fixed connection that leads to the chamber and be close to the stand, just the other end of pressfitting spring and sliding connection piece are close to the inner wall fixed connection of stand.

Preferably, the two groups of the curved mounting frames extend out of the end head of the cross beam and are spaced from the end head, and a detachable wall sliding piece is mounted between the curved mounting frames; in particular, the method comprises the following steps of,

the wall sliding part adopts any one of a roller or a roller, and two sides of the curved mounting rack are fixedly connected with the connecting rack threads of the roller or the roller through screws.

Preferably, the sliding connection blocks and the through cavities formed in the cross beam are all in a cross shape, and the sliding connection blocks are arranged in the through cavities and are in sliding connection with the through cavities.

Preferably, the fluctuation measurer comprises fixed plates, capacitor plates and metal measuring plates, the two fixed plates are fixedly arranged on the cross beam and are respectively arranged on two sides of a sliding cavity formed in the top of the cross beam, and the capacitor plates are arranged in the two fixed plates; in particular, the method comprises the following steps of,

a positive terminal is arranged in the fixing plate far away from the upright post frame and electrically connected with the capacitor plate, and a negative terminal is arranged in the fixing plate close to the upright post frame and electrically connected with the capacitor plate;

the metal measuring plate is fixedly embedded on the sliding connection block, and the metal measuring plate extends out of a sliding cavity formed in the top of the cross beam and is arranged between the two capacitance plates in a standing mode.

Preferably, the fluctuation measurer further comprises a transparent protective cover and a regulation and control panel, the transparent protective cover is fixedly embedded on the cross beam and covers the two fixing plates, the regulation and control panel is fixedly installed on the cross beam, and the regulation and control panel is electrically connected with the capacitance plate and the metal measuring plate through a lead; in particular, the method comprises the following steps of,

a voltmeter is arranged in the regulation panel, the positive electrode of the voltmeter is electrically connected with the measuring terminal on the metal measuring plate, and the negative electrode of the voltmeter is electrically connected with a grounding wire arranged in the upright post frame through a conducting wire;

a direct current circuit is arranged in the control panel, so that a uniform electric field from left to right is formed between the two capacitor plates on the fixed plates.

Preferably, the lifting assembly comprises a screw rod, a threaded connection block and a driving piece, the screw rod is rotatably installed in an installation cavity formed in the stand column frame through a bearing, the threaded connection block is sleeved on the screw rod, a connecting end of the threaded connection block penetrates through a lateral sliding cavity formed in the side wall of the stand column frame and is fixedly connected with the cross beam, and the driving piece is installed on the stand column frame and used for driving the screw rod to rotate.

Preferably, the driving piece includes driving motor, driving gear, drive chain and driven gear, driving motor passes through frame fixed mounting on the stand frame, just driving motor's output fixed mounting has the driving gear, the fixed cover of driven gear is connected at the top of lead screw, just driven gear passes through the drive chain meshing with the driving gear and is connected.

Preferably, the bottom of the upright post frame is provided with a support assembly, the support assembly comprises a support base plate, a half-arc bulge and a shock-proof sizing block, the support base plate is provided with four half-arc bulges which are uniformly distributed, and the shock-proof sizing block is arranged at the bottom of each half-arc bulge.

Preferably, the side wall of the cross beam is provided with scale marks.

Compared with the related art, the information engineering supervision verticality detection device provided by the invention has the following beneficial effects:

the invention provides an information engineering supervision verticality detection device, which utilizes the cooperation of a side shifting assembly and a fluctuation measurer to enable a metal measuring plate to slide along with a sliding connection block when encountering a wall with unqualified verticality, so that the position of the metal measuring plate in a uniform electric field changes, the numerical value of a voltmeter arranged in a regulation panel changes at the moment, and whether the flatness of the vertical surface of the wall meets the building requirements or not can be quickly judged by observing the change of the voltage on the voltmeter.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of an information engineering supervision perpendicularity detecting apparatus according to the present invention;

FIG. 2 is a second schematic structural diagram of a preferred embodiment of the information engineering supervision verticality detection apparatus according to the present invention;

FIG. 3 is a schematic view of the mounting structure of the sideshift assembly and the undulation measuring device shown in FIG. 1;

FIG. 4 is a schematic structural view of the mast head lift assembly of FIG. 2;

FIG. 5 is a schematic view of the drive member of FIG. 4;

fig. 6 is a schematic structural view of the support assembly shown in fig. 1.

Reference numbers in the figures: 1. a column frame; 2. a cross beam; 3. a cavity is communicated; 4. a side shift assembly; 41. a slide bar; 42. a sliding connection block; 43. pressing the spring; 44. a curved mounting bracket; 45. a wall slider; 5. a fluctuation measurer; 51. a fixing plate; 52. a capacitive plate; 53. a metal measuring plate; 54. a transparent protective cover; 55. a control panel; 6. a lifting assembly; 61. a lead screw; 62. a threaded connection block; 63. a drive member; 631. a drive motor; 632. a driving gear; 633. a drive chain; 634. a driven gear; 7. a mounting cavity; 8. a sideslip cavity; 9. a support assembly; 91. supporting the base plate; 92. a half-arc bulge; 93. a shock-proof sizing block; 9a, scale marks.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

Referring to fig. 1 to fig. 6, an information engineering supervision perpendicularity detecting apparatus according to an embodiment of the present invention includes:

a lifting component 6 is arranged in the upright post frame 1;

the cross beam 2 is positioned on the lifting assembly 6 in the upright post frame 1, and the height of the cross beam 2 is adjusted through the lifting assembly 6; further comprising:

and the side shift assembly 4 is positioned on the cross beam 2, and the side shift assembly 4 vertically slides down along the detection wall so that the fluctuation measurer 5 arranged on the cross beam 2 displays the potential difference change.

It should be noted that: utilize the side to move subassembly and undulant caliber cooperation for the metal measuring board slides along with the sliding connection piece when meetting the unqualified wall of straightness that hangs down, therefore the metal measuring board changes with the position in even electric field, and the voltmeter numerical value of establishing in the regulation and control panel changes this moment, thereby can judge fast whether the wall vertical plane roughness accords with the building requirement through the change of observing voltmeter upper voltage.

In the embodiment of the present invention, referring to fig. 4 and 5, the lifting assembly 6 includes a lead screw 61, a threaded connection block 62 and a driving member 63, the lead screw 61 is rotatably mounted in the mounting cavity 7 formed in the column frame 1 through a bearing, the screw 61 is sleeved with a threaded connecting block 62 in threaded connection, the connecting end of the threaded connecting block 62 passes through a side sliding cavity 8 formed in the side wall of the upright post frame 1 and is fixedly connected with the cross beam 2, the driving piece 63 is installed on the upright post frame 1 and is used for driving the screw 61 to rotate, and the driving member 63 includes a driving motor 631, a driving gear 632, a transmission chain 633 and a driven gear 634, the driving motor 631 is fixedly mounted on the column bracket 1 through a frame, and the output end of the driving motor 631 is fixedly provided with a driving gear 632, the driven gear 634 is fixedly sleeved on the top of the screw rod 61, and the driven gear 634 is meshed with the driving gear 632 through a transmission chain 633.

It should be noted that: the driving motor 631 is turned on to drive the driving gear 632 to rotate, and since the driven gear 634 is fixedly sleeved on the screw rod 61 and meshed with the driven gear 634 through the transmission chain 633, the screw rod 61 rotates, so that the threaded connection block 62 is installed on the cross beam 2 to slide up and down, and the wall slider 45 on the cross beam 2 can slide up and down along the detection wall.

In an embodiment of the present invention, referring to fig. 1 and 3, the side shift assembly 4 includes a sliding rod 41, sliding connection blocks 42, a pressing spring 43, a curved mounting rack 44 and a wall sliding part 45, the sliding rod 41 is fixedly installed in the through cavity 3 formed in the cross beam 2, the sliding rod 41 is sleeved with the sliding connection blocks 42 in a sliding connection manner, the curved mounting racks 44 are fixedly welded to two side walls of the sliding connection blocks 42, the wall sliding part 45 is installed between the two sets of curved mounting racks 44, the pressing spring 43 is connected to the sliding rod 41 in series, one end of the pressing spring 43 is fixedly connected to the inner wall of the through cavity 3 close to the column frame 1, and the other end of the pressing spring 43 is fixedly connected to the inner wall of the sliding connection block 42 close to the column frame 1.

It should be noted that: the beam 2 slides along the detection wall under the driving of the lifting assembly 6, when the wall construction is qualified and the wall sliding piece 45 is attached to the wall to slide, no fluctuation exists when the wall sliding piece 45 slides because of no inclination, if the wall construction is unqualified, the wall sliding piece 45 slides to the convex wall surface, the wall sliding piece 45 pushes the sliding connection block 42 to slide outwards along the sliding rod 41 through the curved mounting rack 44 and enables the pressing spring 4 to compress, and after sliding back to the wall surface of the vertical section, the sliding connection block 42 slides inwards along the sliding rod 41 under the action of the pressing spring 4, so that the sliding connection block 42 slides leftwards and rightwards.

In the embodiment: the two groups of curved mounting frames 44 extend out of the end head of the cross beam 2 and are spaced from the end head, and a detachable wall sliding piece 45 is arranged between the curved mounting frames 44; specifically, wall slider 45 adopts any one of roller or gyro wheel, just the link thread fixed connection of screw and roller or gyro wheel is passed through to bent type mounting bracket 44 both sides, and roller or gyro wheel slide on the wall comparatively smoothly on the one hand, and on the other hand adopts detachable installation for roller or gyro wheel surface can in time maintain, change when appearing impaired.

Wherein, the chamber 3 that leads to that sliding connection piece 42 and crossbeam 2 were seted up all is the cross form, just establish in sliding connection piece 42 lead to in the chamber 3 and with lead to 3 sliding connection in chamber, the phenomenon that appears turning a little when avoiding sliding connection piece 42 to slide along slide bar 41, and be provided with scale mark 9a on the lateral wall of crossbeam 2, the staff's of being convenient for naked eye audio-visual sees that sliding connection piece 42 is gliding to be displaced is poor.

In an embodiment of the present invention, referring to fig. 1, fig. 2 and fig. 3, the fluctuation measuring device 5 includes two fixing plates 51, a capacitor plate 52 and a metal measuring plate 53, the two fixing plates 51 are fixedly installed on the cross beam 2, the two fixing plates 51 are respectively installed at two sides of a sliding cavity formed at the top of the cross beam 2, and the capacitor plate 52 is installed in each of the two fixing plates 51;

specifically, a positive terminal is arranged in the fixing plate 51 far away from the column frame 1 and electrically connected with the capacitor plate 52, and a negative terminal is arranged in the fixing plate 51 near the column frame 1 and electrically connected with the capacitor plate 52; the metal measuring plate 53 is fixedly embedded on the sliding connection block 42, and the metal measuring plate 53 extends out of a sliding cavity formed in the top of the cross beam 2 and stands between the two capacitance plates 52;

the fluctuation measurer 5 further comprises a transparent protective cover 54 and a regulation and control panel 55, wherein the transparent protective cover 54 is fixedly embedded on the cross beam 2 and covers the two fixing plates 51, the regulation and control panel 55 is fixedly arranged on the cross beam 2, and the regulation and control panel 55 is electrically connected with the capacitance plate 52 and the metal measuring plate 53 through conducting wires;

specifically, a voltmeter is arranged in the control panel 55, the positive electrode of the voltmeter is electrically connected with the measuring terminal on the metal measuring plate 53, and the negative electrode of the voltmeter is electrically connected with a grounding wire arranged in the column frame 1 through a conducting wire;

a dc circuit is arranged in the control panel 55 to promote a uniform electric field from left to right between the two capacitor plates 52 on the fixing plate 51.

It should be noted that: a switch on a power supply in the regulation and control panel 55 is turned on, so that a potential difference is generated between the capacitance plates 52 on the two fixing plates 51, and therefore a uniform electric field exists, if the wall sliding part 45 slides to a convex wall surface and pushes the sliding connection block 42 to slide along the sliding rod 41, the metal measuring plate 53 slides along with the sliding connection block 42, so that the position of the metal measuring plate 53 and the position in the uniform electric field are changed, the value of a voltmeter arranged in the regulation and control panel 55 is changed at the moment, and whether the flatness of the vertical surface of the wall meets the building requirements can be judged by observing the voltage change on the voltmeter;

in the present embodiment: if people want to get rid of the change of the verticality of the wall through manual observation, an intelligent alarm can be arranged in the control panel 55, an initial value is arranged in the alarm, when the voltage change value on the voltmeter is larger than the initial value, the alarm gives out a voice alarm, and the difference value of the vertical wall is measured through calculation, so that the purpose of intelligent precision is achieved.

In an embodiment of the present invention, referring to fig. 1 and 6, a support assembly 9 is installed at the bottom of the column frame 1, the support assembly 9 includes a support base plate 91, a half-arc protrusion 92 and a shock-proof sizing block 93, four half-arc protrusions 92 are uniformly distributed on the support base plate 91, and the shock-proof sizing block 93 is installed at the bottom of each half-arc protrusion 92.

It should be noted that: the shock-proof sizing block 93 on the supporting component 9 is adjusted, so that the supporting base disc 91 can be in a balanced and stable state, and the problem that the upright post frame 1 is inclined is avoided;

in the present embodiment: in order to adjust the shock-proof sizing block 93 reasonably, a leveling rod can be installed on the column frame 1 so as to detect whether the supporting base plate 91 is level or not.

The information engineering supervision verticality detection device provided by the invention has the following working principle:

adjust the bumper block 93 that takes precautions against earthquakes on the supporting component 9, make support base plate 91 be in balanced stable state, avoid the problem that stand 1 appears the slope, the wall that will roller or gyro wheel laminating detection after the regulation finishes, it is rotatory to open driving motor 631 and drive driving gear 632, because driven gear 634 fixes the cover and connects on lead screw 61 and mesh with driven gear 634 through drive chain 633, U consequently lead screw 61 rotates, thereby install on threaded connection piece 62 and can slide from top to bottom at crossbeam 2, and then wall slider 45 on crossbeam 2 can slide from top to bottom along detecting the wall, when wall construction is qualified and wall slider 45 laminating wall slides, because do not have the slope and make wall slider 45 slide when undulant, if the wall construction is unqualified, after wall slider 45 slides to bellied wall, wall slider 45 pushes sliding connection piece 42 through bent type mounting bracket 44 and makes pressfitting spring 4 press from outside along slide bar 41 and make Contract, and after the wall that slides back to the vertical section, sliding connection block 42 slides along slide bar 41 internal slip under the effect of pressfitting spring 4, consequently sliding connection block 42 appears the horizontal slip to metal measurement board 53 slides along sliding connection block 42, consequently metal measurement board 53 changes with the position in even electric field, the voltmeter numerical value that establishes in regulation and control panel 55 changes this moment, thereby can judge fast whether the wall vertical plane roughness accords with the building requirement through the change of observing voltmeter upper voltage.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.