CN207850365U - A kind of architectural engineering horizontal calibrator - Google Patents

Abstract

The utility model discloses a kind of architectural engineering horizontal calibrators, including pedestal, block level and calibrator ontology, calibrator ontology is located at the top of pedestal, block level is embedded in the upper surface of calibrator ontology, base upper surface has been respectively fixedly connected with screw rod, fixed block, fixed plate and position-limiting tube, the quantity of position-limiting tube is two, screw rod is located at the back side of fixed block, two position-limiting tubes are located at the both sides of fixed block, fixed plate is fixedly connected on the front of fixed block, movable inlaying has the first ball and the second ball respectively for the lower surface of calibrator ontology, first ball and the second ball are corresponding with the position of screw rod and fixed block respectively.The utility model solves the problems, such as that architectural engineering horizontal alignment instrument currently on the market needs to judge the height of several points, using cumbersome by later data processing mostly by the way that block level, laser pen, the first plane mirror and the second plane mirror is arranged.

Description

A kind of architectural engineering horizontal calibrator

Technical field

The utility model is related to building engineering survey technical field of tools, specially a kind of architectural engineering horizontal calibrator.

Background technology

With the development of the society, the development of building trade is maked rapid progress, with the improvement of people's living standards and life matter The improvement of amount, requirement of the people to building are also continuously improved, and are not only the requirement of appearance, and construction quality is even more the most important thing, is built It builds engineering level prover and is used exclusively for a kind of whether horizontal supplementary instrument of building field detection architectural plane, for ensureing Construction quality, which reaches a standard, to be of great significance.

Architectural engineering horizontal alignment instrument currently on the market is mostly spirit level, can only measure the height of several points mostly Difference needs the height that could judge several points by later stage a large amount of data processing, use cumbersome.

Utility model content

（One）The technical issues of solution

In view of the deficiencies of the prior art, the utility model provides a kind of architectural engineering horizontal calibrator, solves at present Architectural engineering horizontal alignment instrument in the market needs to handle by later data mostly could judge the height of several points, using than Cumbersome problem.

（Two）Technical solution

To achieve the above object, the utility model provides the following technical solutions：A kind of architectural engineering horizontal calibrator, including Pedestal, block level and calibrator ontology, the calibrator ontology are located at the top of pedestal, and the block level is embedded in The upper surface of calibrator ontology, the base upper surface have been respectively fixedly connected with screw rod, fixed block, fixed plate and position-limiting tube, institute The quantity for stating position-limiting tube is two, and the screw rod is located at the back side of fixed block, and two position-limiting tubes are located at fixed block Both sides, the fixed plate are fixedly connected on the front of fixed block, and movable inlaying has respectively for the lower surface of the calibrator ontology One ball and the second ball, first ball and the second ball are corresponding with the position of screw rod and fixed block respectively, the screw rod Thread surface be connected with screwed pipe, the one end of the screwed pipe far from pedestal is fixedly connected with the surface of the first ball, described The inner wall of position-limiting tube is connected with supporting rod, and the top of the supporting rod is overlapped with the lower surface of calibrator ontology, and described the The surface of two balls is fixedly connected with link block, and the lower surface of the link block is fixedly connected with horizon bar, the horizon bar Both ends extend through two supporting rods and extend to the outside of supporting rod, and the supporting rod is connected with horizon bar by axis pin activity It connects, the upper surface of the fixed block offers sliding slot, and the inner wall of the sliding slot slidably connects slide bar, and the supporting rod, which corresponds to, to be slided Slot is offered at the position of bar, the upper surface of the slide bar offers tooth socket, and the inner wall of the tooth socket is engaged with gear, described The inner wall of gear is fixedly connected with shaft, and company is fixed in the one end of the shaft far from screw rod through fixed plate and with the back side of knob It connects.

The right side opening of the calibrator ontology is equipped with cavity, and the cavity is in zigzag, and the inner wall of the cavity is fixed respectively It is connected with laser pen, the first plane mirror and the second plane mirror, first plane mirror is located at the surface of the second plane mirror, and One plane mirror is located at the right side of laser pen.

Preferably, the inner wall of the position-limiting tube is connected with resetting spring, the both ends of the resetting spring respectively with branch The bottom of strut is fixedly connected with the upper surface of pedestal.

Preferably, the supporting rod is square bar, and the shape of the position-limiting tube is adapted with the shape of supporting rod, and supporting rod Top be curved surface.

Preferably, the supporting rod corresponds to and offers straight slot at the position of horizon bar, the both ends of the axis pin respectively with it is logical The front and back of slot inner wall is flexibly connected, and the horizon bar corresponds to and offers through-hole at the position of axis pin, the through-hole it is interior Wall is fixedly connected with the surface of axis pin.

Preferably, the through-hole is in ellipticity, and elliptical long axis is located at horizontal direction.

Preferably, the side view of the sliding slot is trapezoidal, and the slide bar is adapted with the shape of sliding slot.

Preferably, the quantity of the laser pen is five, and five laser pens are located at same vertical plane.

Preferably, first plane mirror and the first plane mirror are parallel to each other, and the first plane mirror and horizontal plane composition Angle is 45 degree.

Preferably, the front view of the slide bar is in isosceles trapezoid, and the slot is located at the lower section of slide bar.

（Three）Advantageous effect

The utility model provides a kind of architectural engineering horizontal calibrator, has following advantageous effect：

（1）The utility model is opened and is swashed by the way that block level, laser pen, the first plane mirror and the second plane mirror is arranged Light pen power supply makes it send out light beam, pedestal is placed on ground, adjustment calibrator ontology makes the bubble position in block level In centre, then calibrator ontology is located at horizontal plane, and five laser pens send out five beam light respectively, passes through the first plane mirror successively The outside for reaching calibrator ontology is reflected with the second plane mirror, is located at the light beam of bottom closest to ground, and five light beams Parallel, then light beam is complete less than plane where pedestal for architectural plane, architectural plane higher than plane where pedestal then light beam from it is lower to On disappear successively, can easily observe the height relationships of plane everywhere, reach effect easy to use, solve existing market On architectural engineering horizontal alignment instrument need to handle by later data mostly and could judge the height of several points, use is number Tired problem；

（2）The utility model is by being arranged screw rod, screwed pipe, supporting rod, slide bar and gear, the first ball and the second ball Allow calibrator ontology to adjust angle and be allowed to horizontal, the height at rotation screwed pipe adjustment calibrator ontology front and the back side is closed System, turning knob are moved by gear band moving slide-bar in sliding slot, and slide bar adjusts separately two branch by squeezing the inner wall of slot The height of strut, cooperation block level use, and facilitate the lower surface by calibrator ontology to be adjusted to parallel with horizontal plane, reduce Measurement error.

Description of the drawings

Fig. 1 is the utility model overall structure diagram；

Fig. 2 is sectional side view at the first ball of the utility model position；

Fig. 3 is the utility model calibrator ontology front elevational view；

Fig. 4 is front elevational view at the second ball of the utility model position；

Fig. 5 is schematic enlarged-scale view at A in the utility model Fig. 1；

Fig. 6 is schematic enlarged-scale view at B in the utility model Fig. 2；

In figure：1 pedestal, 2 calibrator ontologies, 3 screw rods, 4 fixed blocks, 5 fixed plates, 6 position-limiting tubes, 7 first balls, 8 second Ball, 9 screwed pipes, 10 supporting rods, 11 link blocks, 12 horizon bars, 13 axis pins, 14 sliding slots, 15 slide bars, 16 slots, 17 tooth sockets, 18 Gear, 19 shafts, 20 cavitys, 21 laser pens, 22 first plane mirrors, 23 second plane mirrors, 24 resetting springs, 25 straight slots, 26 lead to Hole, 27 block levels.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work The every other embodiment obtained, shall fall within the protection scope of the present invention.

It should be noted that in the present embodiment, relational terms such as first and second and the like are used merely to one A entity or operation with another entity or operate distinguish, without necessarily requiring or implying these entities or operation it Between there are any actual relationship or orders.Moreover, the terms "include", "comprise" or its any other variant are intended to Cover non-exclusive inclusion, so that the process, method, article or equipment including a series of elements includes not only those Element, but also include other elements that are not explicitly listed, or further include for this process, method, article or setting Standby intrinsic element.

As shown in figures 1 to 6, the utility model provides a kind of technical solution：A kind of architectural engineering horizontal calibrator, including bottom Seat 1, block level 27 and calibrator ontology 2, calibrator ontology 2 are located at the top of pedestal 1, and block level 27 is embedded in school The upper surface of quasi- device ontology 2,1 upper surface of pedestal have been respectively fixedly connected with screw rod 3, fixed block 4, fixed plate 5 and position-limiting tube 6, limit The quantity of position pipe 6 is two, and screw rod 3 is located at the back side of fixed block 4, and two position-limiting tubes 6 are located at the both sides of fixed block 4, Gu Fixed board 5 is fixedly connected on the front of fixed block 4, and movable inlaying has the first ball 7 and second respectively for the lower surface of calibrator ontology 2 Ball 8, the first ball 7 and the second ball 8 are corresponding with the position of screw rod 3 and fixed block 4 respectively, the thread surface connection of screw rod 3 There are screwed pipe 9, the one end of screwed pipe 9 far from pedestal 1 to be fixedly connected with the surface of the first ball 7, the inner wall activity of position-limiting tube 6 connects It is connected to supporting rod 10, the top of supporting rod 10 is overlapped with the lower surface of calibrator ontology 2, and the inner wall of position-limiting tube 6 is connected with The both ends of resetting spring 24, resetting spring 24 are fixedly connected with the upper surface of the bottom of supporting rod 10 and pedestal 1 respectively, supporting rod 10 be square bar, and the shape of position-limiting tube 6 is adapted with the shape of supporting rod 10, and the top of supporting rod 10 is curved surface, supporting rod 10 Straight slot 25 is offered at the position of corresponding horizon bar 12, the both ends of axis pin 13 are movable with the front and back of 25 inner wall of straight slot respectively It connects, through-hole 26 is offered at the position of the correspondence axis pin 13 of horizon bar 12, the inner wall of through-hole 26 is fixed with the surface of axis pin 13 to be connected It connecing, through-hole 26 is in ellipticity, and elliptical long axis is located at horizontal direction, and the surface of the second ball 8 is fixedly connected with link block 11, The lower surface of link block 11 is fixedly connected with horizon bar 12, and the both ends of horizon bar 12 extend through two supporting rods 10 and extend to The outside of supporting rod 10, supporting rod 10 are flexibly connected with horizon bar 12 by axis pin 13, and the upper surface of fixed block 4 offers sliding slot 14, the inner wall of sliding slot 14 slidably connects slide bar 15, and the side view of sliding slot 14 is trapezoidal, and slide bar 15 and the shape of sliding slot 14 are mutually fitted Match, slot 16 is offered at the position of the correspondence slide bar 15 of supporting rod 10, the front view of slide bar 15 is in isosceles trapezoid, and slot 16 is located at The upper surface of the lower section of slide bar 15, slide bar 15 offers tooth socket 17, and the inner wall of tooth socket 17 is engaged with gear 18, the inner wall of gear 18 It is fixedly connected with shaft 19, the one end of shaft 19 far from screw rod 3 is fixedly connected through fixed plate 5 and with the back side of knob.

The right side opening of calibrator ontology 2 is equipped with cavity 20, and cavity 20 is in zigzag, and the inner wall of cavity 20 is respectively fixedly connected with There are laser pen 21, the first plane mirror 22 and the second plane mirror 23, the quantity of laser pen 21 is five, and five laser pens 21 are located at same One vertical plane, the first plane mirror 22 is located at the surface of the second plane mirror 23, and the first plane mirror 22 is located at the right side of laser pen 21 Side, the first plane mirror 22 and the first plane mirror 22 are parallel to each other, and the angle of the first plane mirror 22 and horizontal plane composition is 40 Five degree.

When in use, pedestal 1 is placed on benchmark ground, rotates screwed pipe 9, adjusts school by the power supply for opening laser pen 21 The height relationships in quasi- device ontology 2 front and the back side, turning knob, knob is by shaft 19 and gear 18 with moving slide-bar 15 along cunning Slot 14 moves, and slide bar 15 by squeezing the inner wall of slot 16 achievees the effect that supporting rod 10 is driven to move upwards along position-limiting tube 6, Resetting spring 24 extends, and the height by changing two supporting rods 10 achievees the effect that change 2 height on both sides of calibrator ontology, spiral shell Line pipe 9 coordinates knob to use so that the bubble in block level 27 is located at the centre of bubble spirit level 27, then prover sheet The upper surface of body 2 is located at horizontal direction so that the light beam that laser pen 21 is sent out is located at horizontal direction.

It can to sum up obtain, the utility model is flat by the way that block level 27, laser pen 21, the first plane mirror 22 and second is arranged Face mirror 23, the architectural engineering horizontal alignment instrument for solving currently on the market need to handle by later data mostly could judge it is several The height of a point, uses cumbersome problem.

Claims (8)

1. a kind of architectural engineering horizontal calibrator, including pedestal（1）, block level（27）With calibrator ontology（2）, the school Quasi- device ontology（2）Positioned at pedestal（1）Top, the block level（27）It is embedded in calibrator ontology（2）Upper surface, It is characterized in that：The pedestal（1）Upper surface has been respectively fixedly connected with screw rod（3）, fixed block（4）, fixed plate（5）And position-limiting tube （6）, the position-limiting tube（6）Quantity be two, the screw rod（3）Positioned at fixed block（4）The back side, two position-limiting tubes （6）It is located at fixed block（4）Both sides, the fixed plate（5）It is fixedly connected on fixed block（4）Front, the calibrator Ontology（2）Movable inlaying has the first ball respectively for lower surface（7）With the second ball（8）, first ball（7）With the second circle Ball（8）Respectively with screw rod（3）And fixed block（4）Position correspond to, the screw rod（3）Thread surface be connected with screwed pipe（9）, The screwed pipe（9）Far from pedestal（1）One end and the first ball（7）Surface be fixedly connected, the position-limiting tube（6）Inner wall It is connected with supporting rod（10）, the supporting rod（10）Top and calibrator ontology（2）Lower surface overlap joint, described second Ball（8）Surface be fixedly connected with link block（11）, the link block（11）Lower surface be fixedly connected with horizon bar（12）, The horizon bar（12）Both ends extend through two supporting rods（10）And extend to supporting rod（10）Outside, the supporting rod （10）With horizon bar（12）Pass through axis pin（13）Flexible connection, the fixed block（4）Upper surface offer sliding slot（14）, described Sliding slot（14）Inner wall slidably connect slide bar（15）, the supporting rod（10）Corresponding slide bar（15）Position at offer slot （16）, the slide bar（15）Upper surface offer tooth socket（17）, the tooth socket（17）Inner wall be engaged with gear（18）, described Gear（18）Inner wall be fixedly connected with shaft（19）, the shaft（19）Far from screw rod（3）One end run through fixed plate（5）And It is fixedly connected with the back side of knob；The calibrator ontology（2）Right side opening be equipped with cavity（20）, the cavity（20）In Z-shaped Shape, the cavity（20）Inner wall be respectively fixedly connected with laser pen（21）, the first plane mirror（22）With the second plane mirror（23）, First plane mirror（22）Positioned at the second plane mirror（23）Surface, and the first plane mirror（22）Positioned at laser pen（21）'s Right side.

2. a kind of architectural engineering horizontal calibrator according to claim 1, it is characterised in that：The position-limiting tube（6）It is interior Wall is connected with resetting spring（24）, the resetting spring（24）Both ends respectively with supporting rod（10）Bottom and pedestal （1）Upper surface be fixedly connected.

3. a kind of architectural engineering horizontal calibrator according to claim 1, it is characterised in that：The supporting rod（10）For side Bar, the position-limiting tube（6）Shape and supporting rod（10）Shape be adapted, and supporting rod（10）Top be curved surface.

4. a kind of architectural engineering horizontal calibrator according to claim 1, it is characterised in that：The supporting rod（10）It is corresponding Horizon bar（12）Position at offer straight slot（25）, the axis pin（13）Both ends respectively with straight slot（25）Inner wall front and The back side is flexibly connected, the horizon bar（12）Corresponding axis pin（13）Position at offer through-hole（26）, the through-hole（26）'s Inner wall and axis pin（13）Surface be fixedly connected.

5. a kind of architectural engineering horizontal calibrator according to claim 4, it is characterised in that：The through-hole（26）In ellipse Shape, and elliptical long axis is located at horizontal direction.

6. a kind of architectural engineering horizontal calibrator according to claim 1, it is characterised in that：The sliding slot（14）Side view Scheme trapezoidal, the slide bar（15）With sliding slot（14）Shape be adapted.

7. a kind of architectural engineering horizontal calibrator according to claim 1, it is characterised in that：The laser pen（21）Number Amount is five, five laser pens（21）Positioned at same vertical plane.

8. a kind of architectural engineering horizontal calibrator according to claim 1, it is characterised in that：First plane mirror（22） With the first plane mirror（22）It is parallel to each other, and the first plane mirror（22）Angle with horizontal plane composition is 45 degree.