CN109307532B - Cross-shaped double-wheel leveling fixed-point horizontal detector for building construction - Google Patents

Abstract

The invention discloses a cross-shaped double-wheel leveling fixed-point horizontal detector for building construction, which structurally comprises: the invention realizes the matching of an inner shaft roller rod cylinder and a long gauge plate, detects a base point by flattening the defects in the vertical direction of the detection groove frame, forms the attachment of a wall longitudinal shaft by the gauge plate, obtains the detection of a transverse shaft by an auxiliary wheel thin plate by approaching the transverse shaft, leads the three shafts to be effectively attached to the base point for horizontal detection, forms the effect of short-distance centering clamping of the fourth shaft, then rotates by matching with a centering rotating shaft, facilitates the rotation adjustment and detection of the whole frame body in a narrow space, pushes a balance weight rod and a roller body to roll to repair cement for flattening, realizes the effect of improving the flatness and detecting the levelness by one detection action, unifies different detection effects on the horizontal plane, saves time and labor.

Description

Cross-shaped double-wheel leveling fixed-point horizontal detector for building construction

Technical Field

The invention relates to a fixed point horizontal detector for flattening cross-shaped double wheels for building construction, belonging to the field of building construction detection equipment.

Background

The detection of straightness, levelness, three types of roughness are hung down to the most multi-purpose guiding rule of detector of construction, and the guiding rule type that corresponds is also diverse, but most bulk urine is carried, do not bring heavy burden for the construction personnel, high-efficient cooperation detects again, to the wall body of right angle inner groovy, it is comparatively convenient that the straightness detects to hang down, and the levelness receives space limitation relatively with the measurement of roughness, two kinds of guiding rules detect respectively and seem comparatively difficult, the public shortcoming of treating the optimization of prior art has:

because the roughness and the levelness of building wall need two kinds of guiding rules to detect, it is very loaded down with trivial details to need fill the operation to the depth of unevenness, and the level basic point often needs three axles to counterpoint and measures, but the difficult definite settlement of datum point often needs the weight centering, can be on the large side at narrow angle weight, will cause the data of skew like this poor, and roughness and levelness belong to same category operation really, but need two parts to detect respectively, waste time and energy.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a fixed point horizontal detector for leveling a cross-shaped double wheel for building construction, which solves the problems that the flatness and the levelness of a building wall body need to be detected by two types of guiding rulers, the filling operation for the uneven depth is very complicated, a horizontal base point usually needs three-axis alignment measurement, but a datum point is difficult to be accurately determined, a heavy hammer is usually needed for centering, the heavy hammer can be slightly large at a narrow angle, so that the deviated data is poor, the flatness and the levelness belong to the same category of operation, and the detection of two parts is time-consuming and labor-consuming.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a level detector of fixed point is pressed to cross double round for construction, its structure includes: digital display screen, go up cap, button board, handle, detection base groove, roller pole cross chi frame, integrated circuit board inserts and inlays at the upper right corner that detects the base inslot portion, integrated circuit board passes through the wire and is connected with digital display screen's bottom electricity, digital display screen inserts and inlays on the front end of last cap, the handle welds the rear end at last cap, the bottom surface of button board is hugged closely on the middle section of last cap, go up the cap and pass through the top lock joint of buckle with detecting the base groove and be in the same place, roller pole cross chi frame nests in the bottom that detects the base groove, digital display screen, handle, integrated circuit board are parallel to each other, the copper wire of button board bottom is connected with digital display screen's pin board, roller pole cross chi frame is equipped with interior axle roller pole section of thick bamboo, long backup plate, balanced liquid tube groove, base plate, jockey pulley sheet metal, Level detect tank bracket, centering pivot, bearing cap seat, balanced liquid pipe groove is equipped with two and nests in the both ends about long backup plate respectively, the top surface of base plate is hugged closely under the bottom surface of long backup plate, interior axle roller pole section of thick bamboo is equipped with two and installs both sides around long backup plate respectively, the front side in long backup plate middle section is inlayed in the insertion of auxiliary wheel sheet metal, the auxiliary wheel sheet metal is through centering pivot and level detect tank bracket mechanical connection, level and detect the tank bracket and install the rear side in long backup plate middle section, bearing cap seat is on the top of nested centering pivot and the axle center collineation, auxiliary wheel sheet metal, level and detect the tank bracket respectively with interior axle roller pole swing joint, long backup plate nestification is in the bottom that detects the base groove.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the inner shaft roller barrel consists of two rubber sleeve caps, two counter weight rod pieces, a roller barrel body, a concave cap and a shaft rotating piston wheel, the rubber sleeve caps are respectively nested at the left end and the right end of the roller barrel body, the shaft rotating piston wheel is mechanically connected with the concave cap through the counter weight rod pieces, the shaft rotating piston wheel and the concave cap are respectively arranged at the left end and the right end of the counter weight rod pieces, the counter weight rod pieces are inserted in the roller barrel body and the axes of the counter weight rod pieces are collinear, and the shaft rotating piston wheel is in clearance fit with the left end in the roller barrel body.

As a further improvement of the invention, the counterweight rod piece consists of a solid lead ring, an alloy fan plate block and an inner shaft rod, the solid lead ring and the alloy fan plate block are welded into a whole, an end hole of the alloy fan plate block is mechanically connected with the inner shaft rod, the axes of the solid lead ring, the alloy fan plate block and the inner shaft rod are collinear, the alloy fan plate block is of a high-hardness compression-resistant structure, and the fan plate can be conveniently rolled with uneven wall cement blocks and painting blocks to form a single-side pressure leveling effect.

As a further improvement of the invention, the long running rule plate consists of a long scale strip plate, a running rule plate and plunger square caps, the bottom surface of the long scale strip plate is tightly attached to the upper end of the front side of the running rule plate, the plunger square caps and the running rule plate are in interference fit, and the two plunger square caps are respectively arranged at the left end and the right end of the running rule plate.

As a further improvement of the invention, the balance liquid pipe groove is composed of two corrugated diaphragms, a clamping seat, two liquid pipe shells, a slide rail, a balance sliding plate and a gel liquid block, wherein the clamping seat is respectively buckled with the left end and the right end of each corrugated diaphragm, the bottom surfaces of the corrugated diaphragms are tightly attached to the top surfaces of the gel liquid block, the slide rail is movably connected with the balance sliding plate, the slide rail and the balance sliding plate are respectively embedded on the upper side and the lower side of the inner part of each liquid pipe shell, the corrugated diaphragms are arranged in the inner parts of the liquid pipe shells, the corrugated diaphragms are of an indicator structure for indirectly controlling balance, and the protruding parts on one side of the left end and the right end are insufficient in flatness, otherwise, the stable parts are standard flatness.

As a further improvement of the invention, the auxiliary wheel thin plate consists of a sleeve, a top lining adhesive plate and an arc groove bottom plate, wherein the bottom surface of the top lining adhesive plate is tightly attached to the top surface of the arc groove bottom plate, the right ends of the top lining adhesive plate and the arc groove bottom plate are inserted and embedded on the left side of the sleeve, and the inner surface of the sleeve is in clearance fit with the outer surface of the centering rotating shaft.

As a further improvement of the invention, the leveling detection groove frame consists of an arc bottom groove, a screw rod, a shaft wheel, a corner lifting column block and a connecting frame pressure rod, wherein the corner lifting column block and the connecting frame pressure rod are nested into a whole, the left end of the connecting frame pressure rod is mechanically connected with the right end of the screw rod through the shaft wheel, the shaft wheel is arranged at the upper left corner of the corner lifting column block and is movably connected with the arc bottom groove through the screw rod, the screw rod is inserted and embedded in the arc bottom groove, and the corner lifting column block is arranged at the right side of the arc bottom groove.

As a further improvement of the invention, the arc bottom groove is a right-side open groove shell structure with an arc groove at the bottom, the right side can be movably lifted in a matched manner through the open groove to reserve a movable space, the arc groove at the bottom is convenient to attach and roll, a gap clapboard is formed, and the effect that the upper action and the lower action are not interfered with each other is achieved.

As a further improvement of the invention, the liquid tube shell is a horizontal tube structure erected in a cylindrical groove, an overhead balance space is arranged in the cylindrical groove, the balance tube with the colloid is conveniently placed for detecting the horizontal accuracy, the internal environments erected at the left end and the right end form a stable state of relative standing, and the horizontal correction probability is improved.

Advantageous effects

The invention relates to a cross-shaped double-wheel flattening fixed-point horizontal detector for building construction, wherein a building observer holds a handle, lifts an upper shell cover with a digital display screen and a button plate, pulls a detection base groove, lifts a roller rod cross ruler frame and an integrated circuit board to the corresponding cross or three-side corner position, presses an inner shaft roller rod cylinder to be close to the top end of a wall vertical surface, presses a rubber sleeve cap and the roller cylinder body to be attached to the top end of the wall surface, starts detection, stirs an arc groove bottom plate of an auxiliary wheel thin plate to be linked with a top lining adhesive plate, enables the sleeve to rotate around a centering rotating shaft and a bearing cap seat, leads an arc bottom groove of a flattening detection groove frame to be pulled to rotate, pulls a lifting angle column block with a screw rod, detects the flatness of the wall body in the rotating process, then a connecting frame pressure rod is lifted by an uneven convex block, leads an axle wheel to rotate to drive the lifting column block to lift up, and leads a worker to know the uneven, then the measuring and levelness detecting of the long scale plate is formed by the fact that the leaning rule plate block of the long leaning rule plate is close to the surface of a wall body, the corrugated diaphragm in a liquid pipe shell of the balancing liquid pipe groove is pulled leftwards and rightwards by the clamping seat to be balanced, when the wall body inclines, the gel liquid block can push the balancing sliding plate to move leftwards and rightwards along the sliding rail to push the corrugated diaphragm, a worker can observe the inclination degree to see the angle away from the horizontal position, the data can be fed back to the integrated circuit board through electric signals to be displayed on the digital display screen, the leaning rule plate block is close to the wall body to realize bottom lining operation through the base plate, the friction loss of the ruler body is protected, when the levelness correcting value is known, the levelness can be detected through a hand push handle, the detecting base groove integrally linked balance weight rod piece rotates between the concave cap and the shaft rotating piston wheel, and releasing the lateral stress to roll the concave-convex uncoagulated cement surface to achieve the effect of simply repairing the flatness, so that the detection of the integral levelness and the flatness is completed.

The invention has the following advantages after operation:

by matching the inner shaft roller tube with the long backup ruler plate and leveling the defect detection base point in the vertical direction of the detection groove frame, then the attachment of the longitudinal axis of the wall body is formed by the ruler plate blocks, the proximity detection of the transverse axis is obtained by the auxiliary wheel thin plate, so that the three axes are effectively attached to the base point for horizontal detection, the space occupation condition of the heavy hammer is avoided, the effect of short-distance centering and clamping of the fourth axis is formed, then the centering rotating shaft is matched for rotation, so that the whole frame body can be conveniently rotated, adjusted and detected in a narrow space, after the levelness and the flatness are effectively detected, pushing the balance weight rod piece and the roller body to roll and repair cement to be flat, compacting the convex end of the wall cement, flattening the concave end from two sides, avoiding the condition that air blowing in the cement is overhead due to filling materials, the effect of improving the flatness and detecting the double functions of the levelness by one detection action is realized, different detection effects on the horizontal plane are unified, and time and labor are saved.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic structural diagram of a cross-shaped double-wheel leveling fixed-point level detector for building construction according to the present invention.

Fig. 2 is a detailed sectional structure diagram of the cross ruler frame of the roller rod of the invention.

Fig. 3 is a schematic cross-sectional structure diagram of the working state of the inner shaft roller tube of the invention.

Fig. 4 is a schematic perspective view of the inner shaft roller barrel in a resting state.

Fig. 5 is a schematic perspective view of the cross-shaped ruler frame of the roller rod in the working state.

FIG. 6 is an enlarged schematic view of the equilibrium liquid channel of the present invention in its operating state.

FIG. 7 is a schematic side sectional view of the working state of the jockey pulley sheet and the leveling detection slot rack of the present invention.

Description of reference numerals: a digital display screen-1, an upper shell cover-2, a button plate-3, a handle-4, a detection base groove-5, a roller rod cross ruler frame-6, an integrated circuit board-7, an inner shaft roller rod cylinder-61, a long ruler plate-62, a balancing liquid pipe groove-63, a base plate-64, an auxiliary wheel thin plate-65, a leveling detection groove frame-66, a centering rotating shaft-67, a bearing cap seat-68, a rubber sleeve cap-611, a counterweight rod piece-612, a roller body-613, a concave cap-614, a shaft rotating piston wheel-615, a solid lead ring-6121, an alloy fan plate-6122, an inner shaft rod-6123, a long scale plate-621, a ruler plate block-622, a plunger square cap-623, a corrugated diaphragm-631, a clamping seat-632, a liquid pipe shell-633, a plunger square cap-623, an alloy fan plate block-6123, an, The device comprises a slide rail-634, a balance slide plate-635, a gel liquid block-636, a sleeve-651, a top lining sticky plate-652, an arc groove bottom plate-653, an arc bottom groove-661, a screw rod-662, a shaft wheel-663, a lifting angle column block-664 and a connecting frame pressure rod-665.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 to 7, the present invention provides a cross-shaped double-wheel leveling fixed-point level detector for building construction, which comprises: digital display screen 1, go up cap 2, button plate 3, handle 4, detection base groove 5, roller bar cross chi frame 6, integrated circuit board 7 inserts and inlays at the upper right corner of detecting base groove 5 inside, integrated circuit board 7 is connected through the bottom electricity of wire with digital display screen 1, digital display screen 1 inserts and inlays on the front end of last cap 2, handle 4 welds the rear end at last cap 2, the bottom surface of button plate 3 hugs closely on the middle section of last cap 2, go up cap 2 and the top lock joint of detecting base groove 5 together through the buckle, roller bar cross chi frame 6 nests in the bottom of detecting base groove 5, digital display screen 1, handle 4, integrated circuit board 7 are parallel to each other, the copper wire of button plate 3 bottom is connected with digital display screen 1's pin board, roller bar cross chi frame 6 is equipped with interior axle roller bar section of thick bamboo 61, A long backup plate 62, a balancing liquid pipe groove 63, a base plate 64, an auxiliary wheel thin plate 65, a leveling detection groove frame 66, a centering rotating shaft 67 and a bearing cap seat 68, the two balancing liquid pipe grooves 63 are respectively nested at the left end and the right end of the long measuring tape plate 62, the top surface of the base plate 64 is closely attached to the bottom surface of the long gauge plate 62, two inner shaft roller barrels 61 are arranged at the front side and the rear side of the long gauge plate 62 respectively, the auxiliary wheel thin plate 65 is inserted and embedded at the front side of the middle section of the long tape board 62, the auxiliary wheel thin plate 65 is mechanically connected with a leveling detection groove frame 66 through a centering rotating shaft 67, the leveling detection groove frame 66 is arranged at the rear side of the middle section of the long ruler plate 62, the bearing cap seat 68 is nested on the top end of the centering rotating shaft 67, the axes of the bearing cap seat are collinear, the auxiliary wheel thin plate 65 and the leveling detection groove frame 66 are movably connected with the inner shaft roller rod barrel 61 respectively, and the long caliper plate 62 is nested at the bottom of the detection base groove 5.

Referring to fig. 3, the inner shaft roller tube 61 is composed of two rubber sleeve caps 611, two weight bars 612, a roller tube 613, a concave cap 614, and a shaft rotation piston wheel 615, the two rubber sleeve caps 611 are respectively nested at the left and right ends of the roller tube 613, the shaft rotation piston wheel 615 is mechanically connected with the concave cap 614 through the weight bars 612, the shaft rotation piston wheel 615 and the concave cap 614 are respectively installed at the left and right ends of the weight bars 612, the weight bars 612 are inserted and embedded inside the roller tube 613, the axes of the weight bars are collinear, the shaft rotation piston wheel 615 and the left end inside the roller tube 613 are in clearance fit, and the weight bars 612 are rotated in the roller tube 613 by thrust force, so that lateral stress of external rolling is formed to cope with uneven cement blocks just filled, and the horizontal rolling flatness of the uneven cement blocks is adjusted completely.

Referring to fig. 4, the weight balancing rod 612 is composed of a solid lead ring 6121, an alloy sector block 6122, and an inner shaft rod 6123, the solid lead ring 6121 and the alloy sector block 6122 are welded into a whole, an end hole of the alloy sector block 6122 is mechanically connected with the inner shaft rod 6123, axes of the solid lead ring 6121, the alloy sector block 6122 and the inner shaft rod 6123 are collinear, the alloy sector block 6122 is of a high-hardness compression-resistant structure, the sector plate can be conveniently rolled with uneven wall cement blocks and painted blocks to form a single-side pressure leveling effect, a centrifugal effect is formed by the solid lead ring 6121 rotating around the inner shaft rod 6123, so that the side stress is improved in a compression manner, and the cement blocks are prevented from being excessively hardened and being worn by friction.

Referring to fig. 5, the long guiding ruler plate 62 is composed of a long scale plate 621, a guiding ruler plate 622, and plunger square caps 623, wherein the bottom surface of the long scale plate 621 is tightly attached to the upper end of the front side of the guiding ruler plate 622, the plunger square caps 623 are in interference fit with the guiding ruler plate 622, two plunger square caps 623 are arranged and respectively installed at the left end and the right end of the guiding ruler plate 622, and the effect of correcting levelness by three base points of the three-in-one balance pipe is achieved by digging holes and grooves in the guiding ruler plate 622.

Referring to fig. 6, the balance liquid pipe tank 63 is composed of a corrugated diaphragm 631, a clip seat 632, a liquid pipe housing 633, a slide rail 634, a balance slide plate 635, and a gel liquid block 636, the clip seat 632 is provided with two parts respectively engaged with the left and right ends of the corrugated diaphragm 631, the bottom surface of the corrugated diaphragm 631 is closely attached to the top surface of the gel liquid block 636, the slide rail 634 is movably connected with the balance slide plate 635, the slide rail 634 and the balance slide plate 635 are provided with two parts respectively nested on the upper and lower sides inside the liquid pipe housing 633, the corrugated diaphragm 631 is mounted inside the liquid pipe housing 633, the corrugated diaphragm 631 is an indicator structure for indirectly controlling balance, the protrusion on one side of the left and right ends is insufficient in flatness, otherwise, the flatness is stable, the liquid pipe housing 633 is a horizontal pipe structure erected in a cylindrical tank, the cylindrical tank is an overhead balance space, conveniently place the balance pipe of taking the colloid and detect horizontal precision, the internal environment that the left and right ends were erect forms a stable state that relatively stews, and the level correction probability improves, and through gel liquid piece 636 and ripple diaphragm 631 cooperation equipment pass roll and rock fluctuation about, when it is static in liquid shell 633, is the test data that reaches the standard value, conveniently sees out gradient and standardability.

Referring to fig. 7, the auxiliary wheel thin plate 65 is composed of a sleeve 651, a top lining adhesive plate 652 and an arc groove bottom plate 653, wherein the bottom surface of the top lining adhesive plate 652 is tightly attached to the top surface of the arc groove bottom plate 653, the right ends of the top lining adhesive plate 652 and the arc groove bottom plate 653 are inserted and embedded in the left side of the sleeve 651, the inner surface of the sleeve 651 is in clearance fit with the outer surface of the centering rotating shaft 67, the leveling detection tank frame 66 is composed of an arc bottom groove 661, a screw rod 662, a shaft wheel 663, a corner lifting column block 664 and a connecting frame compression rod 665, the corner lifting column block 664 is embedded with the connecting frame compression rod 665 into a whole, the left end of the connecting frame compression rod 665 is mechanically connected with the right end of the screw rod 662 through the shaft wheel 663, the shaft wheel 663 is installed in the upper left corner lifting column block 664 of the corner lifting column block 664 and is movably connected with the arc bottom groove 661 through the screw rod 662, the screw rod 662 is inserted and embedded in the arc bottom groove 661, the right side of the arc, arc end recess 661 is the right side open slot shell structure in bottom area arc groove, can cooperate the activity lifting and reserve the activity space in the right side through the open recess, and the arc groove of bottom is the convenient laminating roll, forms the effect of a clearance baffle, reaches the effect that the action noninterference from top to bottom moved, divides two interior beam barrel 61 of both ends laminating through arc end recess 661 and arc groove bottom plate 653, forms the roughness of layering last time and repaiies and the integrative work effect of dibit is detected to the levelness.

The working process is as follows: building observers hold the handle 4 by hand, lift the upper shell cover 2 with the digital display screen 1 and the button plate 3, pull the detection base groove 5, lift the roller rod cross ruler frame 6 and the integrated circuit board 7 to the corresponding cross or three-side wall corner position, press the inner shaft roller rod cylinder 61 to be close to the top end of the wall vertical surface, press the rubber sleeve cap 611 and the roller cylinder 613 to the top end of the wall surface, start detection, toggle the arc groove bottom plate of the auxiliary wheel thin plate 65 to link the top lining plate 652 to enable the sleeve 651 to rotate around the centering rotating shaft 67 and the bearing cap seat 68, enable the arc bottom groove of the leveling detection groove frame 66 to be pulled and rotated 661, pull the lifting angle post block 664 by the screw rod 662, detect the flatness of the wall body in the rotating process, at the moment, the connecting frame pressure rod 665 can be lifted by the uneven convex block 653, enable the shaft wheel 663 to rotate to drive the lifting angle post block 664 to lift, and enable the working personnel to know the uneven deviation condition, then the guiding ruler plate 622 of the long guiding ruler plate 62 is close to the surface of the wall to form measurement and levelness detection of the long scale strip 621, the corrugated diaphragm 631 in the liquid pipe shell 633 of the balancing liquid pipe groove 63 is pulled left and right by the clamping seat 632 to be balanced, when the wall is inclined, the gel liquid block 636 can push the balancing sliding plate 635 to move left and right along the sliding rail 634 to push the corrugated diaphragm 631, a worker can see how many angles are away from the horizontal position by observing the inclination, the data can be fed back to the integrated circuit board 7 through electric signals to be displayed on the digital display screen 1, the guiding ruler plate 622 is close to the wall to realize bottom lining operation through the base plate 64, the friction loss of the ruler body is prevented, and when the levelness correction value is known, the levelness can be detected through pushing the handle 4 to enable the detection base groove 5 to integrally link the counterweight rod 612 to rotate between the concave cap 614 and the, the solid lead ring 6121 and the alloy sector block 6122 are made to rotate around the inner shaft 6123 centrifugally, and the external stress is released to roll the concave-convex uncoagulated cement surface, so that the simple repairing effect of the flatness is achieved, and the detection of the integral levelness and the flatness is completed.

The invention achieves the effects of utilizing the inner shaft roller rod cylinder 61 to be matched with the long gauge plate 62, detecting a base point by flattening the defect in the vertical direction of the detection groove frame 66, forming the joint of the longitudinal shaft of the wall body by the gauge plate 622, obtaining the proximity detection of the transverse shaft by the auxiliary wheel thin plate 65, leading the three shafts to be effectively jointed with the base point for horizontal detection, avoiding the space occupation condition of a heavy hammer, forming the short-distance centering clamping effect of the fourth shaft, then matching with the centering rotating shaft 67 to rotate, facilitating the rotation adjustment detection of the whole frame body in a narrow space, pushing the balance weight rod 612 and the roller cylinder 613 to roll and repair cement flattening after effectively detecting the levelness and the levelness, compacting the convex end of wall cement, flattening the concave end from both sides, avoiding the condition that air blowing in the cement is overhead caused by filling materials, realizing the double effects of improving the levelness and detecting the levelness by a detection action, the different detection effect on the horizontal plane has been unified, time saving and labor saving, solve with this because building wall's roughness and levelness need the guiding rule of two kinds of types to detect, it is very loaded down with trivial details to fill the operation to the depth of unevenness, and the horizontal base point often needs three axles to counterpoint to measure, but the difficult definite settlement of datum point, often need the weight centering, can be on the large side at narrow angle weight, the data that will cause the skew like this is poor, roughness and levelness belong to same category operation really, but need two parts to detect respectively, the problem of wasting time and energy.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (3)

1. The utility model provides a level detector of fixed point is pressed to cross double round for construction, its structure includes: digital display screen (1), go up cap (2), button plate (3), handle (4), detect base groove (5), roller pole cross chi frame (6), integrated circuit board (7), embedded right corner in detecting base groove (5) inside is inserted in integrated circuit board (7), integrated circuit board (7) are connected through the bottom electricity of wire with digital display screen (1), digital display screen (1) are inserted and are inlayed on the front end of last cap (2), handle (4) welding is at the rear end of last cap (2), the bottom surface of button plate (3) is hugged closely on the middle section of last cap (2), go up cap (2) and the top lock joint that detects base groove (5) through the buckle and be in the same place, roller pole cross chi frame (6) are nested in the bottom that detects base groove (5), digital display screen (1), handle (4), Integrated circuit board (7) are parallel to each other, the copper wire of button board (3) bottom is connected with the pin board electricity of digital display screen (1), its characterized in that:

the roller rod cross ruler frame (6) is provided with an inner shaft roller rod cylinder (61), a long ruler plate (62), a balance liquid pipe groove (63), a base plate (64), an auxiliary wheel thin plate (65), a leveling detection groove frame (66), a centering rotating shaft (67) and a bearing cap seat (68), the balance liquid pipe groove (63) is provided with two parts and is respectively nested at the left end and the right end of the long ruler plate (62), the top surface of the base plate (64) is tightly attached to the bottom surface of the long ruler plate (62), the inner shaft roller rod cylinder (61) is provided with two parts and is respectively arranged at the front side and the rear side of the long ruler plate (62), the auxiliary wheel thin plate (65) is inserted at the front side of the middle section of the long ruler plate (62), the auxiliary wheel thin plate (65) is mechanically connected with the leveling detection groove frame (66) through the centering rotating shaft (67), and the leveling detection groove frame (66) is arranged at the rear side of the middle section of the long ruler plate (62), the bearing cap seat (68) is nested on the top end of the centering rotating shaft (67) and the axes of the bearing cap seat and the bearing cap seat are collinear, the auxiliary wheel thin plate (65) and the flat detection groove rack (66) are movably connected with the inner shaft roller rod cylinder (61) respectively, and the long ruler plate (62) is nested at the bottom of the detection base groove (5);

the inner shaft roller tube (61) consists of two rubber sleeve caps (611), a balance weight rod (612), a roller body (613), a concave cap (614) and a shaft rotation piston wheel (615), the rubber sleeve caps (611) are respectively nested at the left end and the right end of the roller body (613), the shaft rotation piston wheel (615) is mechanically connected with the concave cap (614) through the balance weight rod (612), the shaft rotation piston wheel (615) and the concave cap (614) are respectively arranged at the left end and the right end of the balance weight rod (612), the balance weight rod (612) is inserted and embedded in the roller body (613) and the axis is collinear, the shaft rotation piston wheel (615) and the left end in the roller body (613) are in clearance fit, the rod balance weight (612) consists of a solid lead ring (6121), an alloy fan plate block (6122) and an inner shaft lever (6123), and the solid lead ring (6121) and the alloy fan plate block (6122) are welded into a whole, the end hole of the alloy fan plate block (6122) is mechanically connected with the inner shaft rod (6123), and the axes of the solid lead ring (6121), the alloy fan plate block (6122) and the inner shaft rod (6123) are collinear;

the long running rule plate (62) consists of a long scale strip plate (621), a running rule plate block (622) and plunger square caps (623), the bottom surface of the long scale strip plate (621) is tightly attached to the upper end of the front side of the running rule plate block (622), the plunger square caps (623) and the running rule plate block (622) are in interference fit, and the two plunger square caps (623) are arranged and are respectively installed at the left end and the right end of the running rule plate block (622);

the balance liquid pipe groove (63) consists of a corrugated diaphragm (631), a clamping seat (632), a liquid pipe shell (633), a sliding rail (634), a balance sliding plate (635) and a gel liquid block (636), wherein the clamping seat (632) is provided with two parts which are respectively buckled with the left end and the right end of the corrugated diaphragm (631), the bottom surface of the corrugated diaphragm (631) is tightly attached to the top surface of the gel liquid block (636), the sliding rail (634) is movably connected with the balance sliding plate (635), the sliding rail (634) and the balance sliding plate (635) are provided with two parts which are respectively nested on the upper side and the lower side inside the liquid pipe shell (633), and the corrugated diaphragm (631) is installed inside the liquid pipe shell (633);

the auxiliary wheel thin plate (65) consists of a sleeve (651), a top lining sticky plate (652) and an arc groove bottom plate (653), wherein the bottom surface of the top lining sticky plate (652) is tightly attached to the top surface of the arc groove bottom plate (653), the right ends of the top lining sticky plate (652) and the arc groove bottom plate (653) are inserted and embedded in the left side of the sleeve (651), and the inner surface of the sleeve (651) is in clearance fit with the outer surface of the centering rotating shaft (67);

level and detect cell-rack (66) by arc end groove (661), lead screw (662), arbor wheel (663), lift corner post piece (664), even frame depression bar (665) constitute, it is nested as an organic whole with even frame depression bar (665) to lift corner post piece (664), the left end of even frame depression bar (665) passes through arbor wheel (663) and is connected with the right-hand member machinery of lead screw (662), arbor wheel (663) are installed and are being lifted corner post piece (664) and pass through lead screw (662) and arc end groove (662) swing joint at the upper left corner of lifting corner post piece (664), lead screw (662) are inserted and are inlayed in the inside of arc end groove (661), it installs in the right side of arc end groove (661 to lift corner post piece (664).

2. The horizontal detector of claim 1, wherein the horizontal detector comprises: the arc bottom groove (661) is a right side open groove shell structure with an arc groove at the bottom.

3. The horizontal detector of claim 1, wherein the horizontal detector comprises: the liquid tube shell (633) is a horizontal tube structure erected in the column tube groove.

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