CN216283463U - A straightness detection device that hangs down for building engineering quality detects - Google Patents

Abstract

The utility model relates to the technical field of building measuring tools, and discloses a perpendicularity detecting device for detecting the quality of building engineering. This a straightness detection device that hangs down for building engineering quality detects can utilize base and two sets of fenders to enclose the inner chamber that closes the formation and shelter from the protection to its inner structure through the device when not using to and the device can be comparatively stable utilizes hydraulic push rod to support measuring frame when using and keep the position, thereby make the user conveniently accept to this a straightness detection device that hangs down for building engineering quality detects and carry, it is comparatively convenient to operate when using simultaneously.

Description

A straightness detection device that hangs down for building engineering quality detects

Technical Field

The utility model relates to the technical field of building measuring tools, in particular to a perpendicularity detecting device for detecting the quality of building engineering.

Background

When the building construction is completed, a worker is required to detect the building, the perpendicularity of the wall surface is one of key points of the quality control of the house, and therefore the worker is required to use the perpendicularity detection device to measure the included angle between the wall and the ground.

Adopt the lifting rope to hang the plumb bob mostly when carrying out the straightness that hangs to the wall under prior art, utilize plumb bob and lifting rope to judge whether perpendicular with the lifting rope after fixed and static from the wall, this makes and is only convenient for look over whether perpendicular when carrying out the straightness that hangs down to the wall, but is not convenient for look over specific inclination, needs to improve the processing to it for this reason.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides a perpendicularity detection device for detecting the quality of building engineering, which solves the problem that the specific inclination angle of a wall is not convenient to check when the perpendicularity of the wall is detected in the prior art.

(II) technical scheme

In order to achieve the purpose, the utility model provides the following technical scheme: a perpendicularity detection device for detecting quality of building engineering comprises a base shell, wherein a group of positioning shafts is arranged on the inner rear side of the base shell, two ends of each positioning shaft penetrate through two opposite sides of the base shell respectively and are fixedly clamped with the base shell, a group of movable sleeve seats rotatably connected with the positioning shafts are sleeved on the outer side walls of the positioning shafts, hydraulic push rods with output ends facing the front side of the base shell are screwed on the front sides of the movable sleeve seats, a group of lantern rings are fixedly arranged at the output ends of the hydraulic push rods, a group of connecting shafts rotatably connected with the lantern rings are coaxially inserted in the lantern rings, two ends of each connecting shaft penetrate through the middle portions of two opposite sides of a measuring frame respectively and are fixedly clamped with the middle portions of the two opposite sides of the measuring frame, a group of deflection shafts which are fixedly clamped with the measuring frame and are coaxially distributed are inserted at the front ends of the left side and the right side of the measuring frame, and opposite ends of the two groups of the deflection shafts penetrate through two opposite sides of the base shell respectively and are rotatably connected with the two sides of the base shell.

Preferably, the base shell includes that the bonding of bottom plane is provided with the one deck with the base shell bottom cover's resilient rubber pad's base, the left side and the right side at base top have all set firmly a set of enclosure, and two sets of enclosure highly equal and rotate with two sets of deflection axles respectively and be connected, and two sets of enclosure rotate with the both ends of location axle respectively simultaneously and are connected, and are two sets of a set of arc wall has all been seted up to enclosure dorsal part, the deflection axle passes adjacent arc wall and has set firmly a set of pointer, the outward flange department of arc wall evenly is provided with the instruction scale, and the pointer is the one end orientation of deflection axle dorsad to instruct the scale.

Preferably, when the measuring frame is in a horizontal state, the top plane of the measuring frame is coplanar with the tops of the enclosing baffles, and the width of the measuring frame is matched with the distance between the two groups of enclosing baffles.

Preferably, the measuring frame is arranged above the hydraulic push rod, the measuring frame is in a U-shaped frame structure, and the top plane of the measuring frame is arranged to be a smooth plane.

Preferably, the top plane of the measuring frame is provided with a group of extension blocks in an adhesive manner, the shape of the extension blocks is matched with that of the horizontal cross section of the measuring frame, and the top plane of the extension blocks is parallel to that of the top plane of the measuring frame.

Preferably, the distance between the deflection shaft and the bottom in the base shell is greater than the distance between the deflection shaft and the right side of the measuring frame, and the distance between the positioning shaft and the bottom in the base shell is greater than the distance between the positioning shaft and the left side of the movable sleeve seat.

(III) advantageous effects

Compared with the prior art, the utility model provides a verticality detection device for detecting the quality of construction engineering, which has the following beneficial effects:

1. this a straightness detection device that hangs down for building engineering quality detects can utilize base and two sets of fenders to enclose the inner chamber that closes the formation and shelter from the protection to its inner structure through the device when not using to and the device can be comparatively stable utilizes hydraulic push rod to support measuring frame when using and keep the position, thereby make the user conveniently accept to this a straightness detection device that hangs down for building engineering quality detects and carry, it is comparatively convenient to operate when using simultaneously.

2. This a straightness detection device that hangs down for building engineering quality detects through the setting of base self structure to and the structure cooperation between the pointer that baffle plate surface arc wall outside department instructs scale and deflection outside of shafts to be connected, make this a straightness detection device that hangs down for building engineering quality detects can comparatively stable place the use when using, and can be comparatively accurate look over and measure the gained angle, improved the convenience that the device used.

3. This a straightness detection device that hangs down for building engineering quality detects through position and the size cooperation between measuring frame and two sets of fenders to make measuring frame's deflection comparatively smooth and easy, avoid and enclose and produce the friction between the baffle and interfere, through the position cooperation between measuring frame and the hydraulic push rod, and the structure setting of measuring frame self, thereby make measuring frame can avoid and produce the collision when being driven and deflect and interfere with between the hydraulic push rod.

Drawings

FIG. 1 is an exploded view of the present invention;

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

FIG. 3 is a schematic view of the structure of the base shell of the present invention.

In the figure: 1. a base shell; 101. a base; 102. a surrounding baffle plate; 103. an arc-shaped slot; 104. indicating scales; 2. positioning the shaft; 3. a movable sleeve seat; 4. a hydraulic push rod; 5. a connecting shaft; 6. a measuring frame; 7. a yaw axis; 8. a pointer.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a verticality detection device for building engineering quality detection comprises a base shell 1, when a user uses the verticality detection device for building engineering quality detection, the base shell 1 is placed on the ground and the front side of the base shell 1 is close to a wall surface to be detected, a group of positioning shafts 2 with two ends respectively penetrating through two opposite sides of the base shell 1 and fixedly clamped with the base shell are arranged on the inner rear side of the base shell 1, a group of movable sleeve seats 3 rotatably connected with the positioning shafts are sleeved on the outer side walls of the positioning shafts 2, hydraulic push rods 4 with output ends facing to the front side of the base shell 1 are screwed on the front sides of the movable sleeve seats 3, the user starts the hydraulic push rods 4 and enables the output ends of the hydraulic push rods 4 to extend outwards during measurement, a group of lantern rings are fixedly arranged at the output ends of the hydraulic push rods 4, a group of connecting shafts 5 rotatably connected with the lantern rings are coaxially inserted in the lantern rings, two ends of the connecting shafts 5 respectively penetrate through the middle parts of two opposite sides of a measurement frame 6 and are fixedly clamped with the connecting shafts, measuring frame 6 left side front end and right side front end all insert and are equipped with a set of deflection axle 7 of blocking solid and coaxial distribution with it, the end of carrying on the back of the body of two sets of deflection axles 7 passes the both sides that base shell 1 is relative respectively and rotates with it to be connected, at hydraulic push rod 4 and the rotation connection cooperation between the connecting axle 5 that passes measuring frame 6, and measuring frame 6 can use deflection axle 7 to carry out the cooperation effect that deflects as the rotation axis under, thereby make hydraulic push rod 4 self can utilize movable sleeve seat 3 to deflect in location axle 2 department, and make 4 outputs of hydraulic push rod utilize the lantern ring to promote connecting axle 5 and measuring frame 6 upwards to deflect along with deflection axle 7, thereby measure wall inclination.

Specifically, in order to facilitate the device to look over the measurement angle and to be convenient to store and carry, the base shell 1 comprises a base 101 with a bottom plane adhered with an elastic rubber pad covering the bottom of the base shell 1, a set of enclosure plates 102 are fixedly arranged on the left side and the right side of the top of the base 101, the two sets of enclosure plates 102 have the same height and are respectively rotatably connected with two sets of deflection shafts 7, the two sets of enclosure plates 102 are respectively rotatably connected with two ends of the positioning shaft 2, the top plane of the measurement frame 6 is coplanar with the top of the enclosure plates 102 when the measurement frame 6 is in a horizontal state, and the inner cavity formed by enclosing the base 101 and the two sets of enclosure plates 102 can be used for shielding and protecting the inner structure of the device when the device is not used, so that a user can conveniently accommodate and carry the verticality detection device for building engineering quality detection, and the inner structure of the base shell 1 is accommodated in the inner side of the device to reduce collision damage, a set of arc wall 103 has all been seted up on two sets of fencing boards 102 looks dorsal part, deflection axle 7 passes adjacent arc wall 103 and has set firmly a set of pointer 8, the outward flange department of arc wall 103 evenly is provided with and instructs scale 104, and pointer 8 one end orientation that deflects axle 7 dorsad indicates scale 104, setting through base 101 self structure, and fencing board 102 surface arc wall 103 outside department instructs the structure cooperation between scale 104 and the pointer 8 of being connected in the deflection axle 7 outside, make this a straightness detection device that hangs down for building engineering quality detects can be comparatively stable place the use when using, and can be comparatively accurate look over measure the gained angle.

Specifically, in order to make the adjustment and use of the device smoother, the width of the measuring frame 6 is matched with the distance between the two groups of the enclosure plates 102, the measuring frame 6 is enabled to deflect more smoothly by matching the position and the size between the measuring frame 6 and the two groups of the enclosure plates 102, friction interference between the measuring frame 6 and the enclosure plates 102 is avoided, the measuring frame 6 is positioned above the hydraulic push rod 4, the measuring frame 6 is set to be in a U-shaped frame structure, the distance between the deflection shaft 7 and the inner bottom of the base shell 1 is larger than the distance between the deflection shaft 7 and the right side of the measuring frame 6 by matching the position between the measuring frame 6 and the hydraulic push rod 4 and the structural arrangement of the measuring frame 6, collision interference between the measuring frame 6 and the hydraulic push rod 4 can be avoided when the measuring frame 6 is driven to deflect, the distance between the deflection shaft 7 and the right side of the measuring frame 6 can be avoided when the measuring frame 6 is driven to rotate, the interval between 2 bottoms in location axle to base shell 1 is greater than the interval between 2 bottoms to the 3 left sides of activity cover seats in the axle of location to can avoid colliding base shell 1 bottom inner wall when making activity cover seat 3 driven the deflection.

Specifically, for the convenience of measuring, the top plane of measuring frame 6 sets up to smooth plane, the top plane bonding of measuring frame 6 is provided with the extension piece of a set of shape and measuring frame 6's horizontal cross section shape looks adaptation, and is parallel to each other between the top plane of extension piece and the top plane of measuring frame 6, thereby when making the device need have certain distance to use apart from the corner, can utilize the extension of extension piece to contact between effect and the wall, thereby comparatively accurate measurement wall inclination.

The working principle is as follows: when the user uses the verticality detection device for detecting the quality of the building engineering, the base shell 1 is placed on the ground, the front side of the base shell 1 is close to the wall surface to be detected, then the user starts the hydraulic push rod 4 and leads the output end of the hydraulic push rod 4 to extend outwards, under the matching action of the rotation connection between the hydraulic push rod 4 and the connecting shaft 5 which passes through the measuring frame 6 and the deflection of the measuring frame 6 by taking the deflection shaft 7 as a rotating shaft, so that the hydraulic push rod 4 can deflect at the positioning shaft 2 by utilizing the movable sleeve seat 3, and the output end of the hydraulic push rod 4 utilizes the lantern ring to push the connecting shaft 5 and the measuring frame 6 to deflect upwards by taking the deflection shaft 7 as a rotating shaft until the measuring frame 6 is parallel to the wall to be detected, the position of the indication scale 104 pointed by the pointer 8 can be checked to know the wall inclination angle.

In summary, the verticality detection device for detecting the quality of the building engineering can shield the internal structure of the device by utilizing the inner cavity formed by the enclosing of the base 101 and the two sets of enclosing baffles 102 when the device is not used, and can stably support and maintain the position of the measuring frame 6 by utilizing the hydraulic push rod 4 when the device is used, so that a user can conveniently accommodate and carry the verticality detection device for detecting the quality of the building engineering, meanwhile, the operation is convenient when the device is used, the verticality detection device for detecting the quality of the building engineering can be stably placed and used when the device is used by virtue of the arrangement of the structure of the base 101 and the structural matching between the indication scale 104 at the outer edge of the arc-shaped groove 103 on the surface of the enclosing baffle 102 and the pointer 8 connected with the outer side of the deflection shaft 7, and the measured angle can be accurately checked, the convenience of the device use is improved, through position and size cooperation between measuring frame 6 and two sets of fenders 102, thereby make measuring frame 6 deflect comparatively smoothly, avoid and enclose and produce the friction interference between the fender 102, through the position cooperation between measuring frame 6 and hydraulic push rod 4, and the structure setting of measuring frame 6 self, thereby make measuring frame 6 can avoid and produce the collision interference between hydraulic push rod 4 when being driven and deflect.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a straightness detection device that hangs down for building engineering quality detects, includes base shell (1), its characterized in that: a group of positioning shafts (2) with two ends respectively penetrating through two opposite sides of the base shell (1) and fixedly clamped with the base shell (1) are arranged on the inner rear side of the base shell (1), the outer side wall of the positioning shaft (2) is sleeved with a group of movable sleeve seats (3) which are rotationally connected with the positioning shaft, and the front side of the movable sleeve seat (3) is screwed with a hydraulic push rod (4) with the output end facing the front side of the base shell (1), a group of lantern rings are fixedly arranged at the output end of the hydraulic push rod (4), a group of connecting shafts (5) which are rotatably connected with the lantern rings are coaxially inserted in the lantern rings, two ends of the connecting shaft (5) respectively penetrate through the middle parts of two opposite sides of the measuring frame (6) and are fixedly clamped with the measuring frame, a group of deflection shafts (7) which are clamped and fixed with the measuring frame (6) and are coaxially distributed is inserted into the front end of the left side and the front end of the right side of the measuring frame, and the opposite ends of the two groups of deflection shafts (7) respectively penetrate through the two opposite sides of the base shell (1) and are rotatably connected with the base shell.

2. The perpendicularity detection device for construction engineering quality detection as claimed in claim 1, wherein: base shell (1) is provided with base (101) of the elastic rubber pad that the one deck covered base shell (1) bottom including the bonding of bottom plane, the left side and the right side at base (101) top all have set firmly a set of enclosure baffle (102), and two sets of the height of enclosure baffle (102) equals and rotates with two sets of deflection axles (7) respectively and is connected, and two sets of enclosure baffle (102) rotate with the both ends of location axle (2) respectively simultaneously and are connected, and are two sets of a set of arc wall (103) have all been seted up to enclosure baffle (102) dorsal part, deflection axle (7) pass adjacent arc wall (103) and have set firmly a set of pointer (8), the outward flange department of arc wall (103) evenly is provided with and instructs scale (104), and pointer (8) one end orientation that deflects axle (7) dorsad indicates scale (104).

3. The perpendicularity detection device for construction engineering quality detection as claimed in claim 2, wherein: when the measuring frame (6) is in a horizontal state, the top plane of the measuring frame is coplanar with the tops of the enclosure plates (102), and the width of the measuring frame (6) is matched with the distance between the two sets of enclosure plates (102).

4. The perpendicularity detection device for construction engineering quality detection as claimed in claim 3, wherein: the measuring frame (6) is positioned above the hydraulic push rod (4), the measuring frame (6) is of a U-shaped frame structure, and the top plane of the measuring frame (6) is a smooth plane.

5. The perpendicularity detection device for construction engineering quality detection as claimed in claim 4, wherein: the top plane of the measuring frame (6) is provided with a group of extension blocks in a bonding mode, the shapes of the extension blocks are matched with the horizontal section shape of the measuring frame (6), and the top plane of each extension block is parallel to the top plane of the measuring frame (6).

6. The perpendicularity detection device for construction engineering quality detection as claimed in claim 1, wherein: the distance between the deflection shaft (7) and the bottom in the base shell (1) is larger than the distance between the deflection shaft (7) and the right side of the measuring frame (6), and the distance between the positioning shaft (2) and the bottom in the base shell (1) is larger than the distance between the positioning shaft (2) and the left side of the movable sleeve seat (3).

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