阅读说明：本技术 具有标记功能的混凝土构件垂直度检测装置 (Concrete member perpendicularity detection device with marking function ) 是由 吴成霞 于 2021-06-21 设计创作，主要内容包括：本发明公开了混凝土构件检测技术领域的具有标记功能的混凝土构件垂直度检测装置,包括固定框,所述固定框的两侧均开设有通槽,两组所述通槽内均滑动设置有滑块,两组所述滑块上均贯穿有固定杆,所述固定杆的前后两端均延伸至滑块的两侧,且固定杆的前后两端均设置有印刷块,所述固定杆于滑块的前方固定套接有安装块,通过电机驱动活动块,使得转动辊向下在混凝土板的待测面滚动,当混凝土板处有凹陷和凸起时,通过弹簧一的弹力,使得固定杆可以带动前、后印刷块分别接触透明板一和透明板二的标记纸上,进而可以在标记纸上留下印记,从而可以通过刻度板一和刻度板二,记录下混凝土板具有垂直误差的区域,便于后续处理。(The invention discloses a concrete component verticality detection device with a marking function in the technical field of concrete component detection, which comprises a fixing frame, wherein through grooves are formed in two sides of the fixing frame, sliding blocks are arranged in two groups of through grooves in a sliding manner, fixing rods penetrate through the two groups of sliding blocks, the front ends and the rear ends of the fixing rods extend to two sides of the sliding blocks, printing blocks are arranged at the front ends and the rear ends of the fixing rods, mounting blocks are fixedly sleeved in the front of the sliding blocks by the fixing rods, a movable block is driven by a motor to enable a rotating roller to roll downwards on a surface to be detected of a concrete slab, when a concrete slab is sunken or protruded, the fixing rods can drive the front printing blocks and the rear printing blocks to respectively contact marking paper of a first transparent plate and a second transparent plate through the elastic force of a first spring, marks can be left on the marking paper, and accordingly the first scale plate and the second scale plate can pass, the areas of the concrete slab with vertical errors are recorded for subsequent treatment.)

1. Concrete member straightness detection device that hangs down with mark function, including fixed frame (1), its characterized in that: through grooves (2) are respectively formed in two sides of a fixed frame (1), sliding blocks (3) are respectively arranged in the two groups of through grooves (2) in a sliding manner, fixing rods (4) penetrate through the two groups of sliding blocks (3), the front ends and the rear ends of the fixing rods (4) extend to two sides of the sliding blocks (3), printing blocks (5) are respectively arranged at the front ends and the rear ends of the fixing rods (4), mounting blocks (7) are fixedly sleeved on the front parts of the sliding blocks (3) of the fixing rods (4), first springs (6) sleeved on the fixing rods (4) are arranged on the rear sides of the mounting blocks (7), the rear sides of the first springs (6) are connected to the sliding blocks (3), the opposite sides of the two groups of mounting blocks (7) are rotatably connected with rotating rollers (8), mounting rods (9) are uniformly arranged at two ends of the front side of the fixed frame (1), the front ends of the mounting rods (9) are respectively connected with first scale plates (10), transparent plates (11) are respectively arranged at the opposite sides of the two groups of the first scale plates (10), and transparent plate one (11) is located the dead ahead of front side printing block (5), the inner wall both sides of fixed frame (1) all are provided with transparent plate two (12), and transparent plate two (12) are located the dead back of rear side printing block (5), the opposite side of transparent plate one (11) and transparent plate two (12) all is provided with the mark paper, the rear end both sides of fixed frame (1) all are provided with scale plate two (13), the left side bottom of fixed frame (1) is provided with the base, and be provided with motor (14) on the base, the power end of motor (14) is connected with lead screw (15), the spiro union has movable block (16) of being connected with left side slider (3) on lead screw (15), the power end of motor (14) is connected with pushing mechanism (17), the right side bottom of fixed frame (1) is provided with ink mechanism (18).

2. The concrete member perpendicularity detecting apparatus with a marking function according to claim 1, characterized in that: the pushing mechanism (17) comprises a first gear (171) sleeved on a power end of the motor (14), a second gear (172) is meshed and connected to the rear side of the first gear (171), a round rod (173) is arranged at one end of the top of the second gear (172), the second gear (172) is sleeved on a rotating shaft (174), the bottom end of the rotating shaft (174) is rotatably installed on the base, and a push rod assembly (175) is movably connected to the round rod (173).

3. The concrete member perpendicularity detecting apparatus with a marking function according to claim 2, wherein: push rod subassembly (175) are including guide way (1751) of swing joint on round bar (173), and the bottom of guide way (1751) is provided with connecting rod (1752), and the bottom of connecting rod (1752) is connected on push rod body (1754), and push rod body (1754) sliding connection is on the rear side bottom of fixed frame (1), and the right-hand member of push rod body (1754) runs through fixed frame (1).

4. The concrete member perpendicularity detecting apparatus with a marking function according to claim 3, wherein: the ink mechanism (18) comprises an ink barrel (181), the bottom end of the ink barrel (181) is connected to a bottom plate (182), the front side of the bottom plate (182) is connected to a rotating shaft (183), the top end of the rotating shaft (183) is rotatably installed on an installation seat (184), the left end of the installation seat (184) is connected to a fixed frame (1), a second spring (185) connected with the fixed frame (1) is arranged on the left side of the bottom plate (182), and a contact block (186) opposite to a push rod body (1754) is arranged on the rear side of the top of the bottom plate (182).

5. The concrete member perpendicularity detecting apparatus with a marking function according to claim 4, wherein: the ink barrel (181) comprises an ink barrel body (1811) arranged on the bottom plate (182), an ink outlet pipe (1812) is arranged at the right bottom of the ink barrel body (1811), and a filter plate (1813) is arranged at the upper part of the inner wall of the ink barrel body (1811).

6. The concrete member perpendicularity detecting apparatus with a marking function according to claim 5, wherein: the top of the ink barrel body (1811) is movably connected with a cover body, and the ink outlet pipe (1812) is provided with a valve.

Technical Field

The invention relates to the technical field of concrete member detection, in particular to a concrete member perpendicularity detection device with a marking function.

Background

The concrete member is a beam, a plate, a column, a foundation and other members made of concrete, the perpendicularity of the concrete member directly affects the quality of a building, and therefore the detection of the perpendicularity of the concrete member is of great importance, when the concrete plate is detected, a traditional concrete member perpendicularity detection device can only obtain whether the concrete plate has a vertical error, and cannot mark an area with the vertical error of the concrete plate subsequently, so that the subsequent processing of the concrete plate is inconvenient, and therefore, the concrete member perpendicularity detection device with a marking function is provided.

Disclosure of Invention

The invention aims to provide a concrete member perpendicularity detection device with a marking function, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the concrete member verticality detection device with the marking function comprises a fixing frame, wherein through grooves are formed in two sides of the fixing frame, sliders are arranged in two groups of through grooves in a sliding mode, fixing rods penetrate through the two groups of sliders, the front ends and the rear ends of the fixing rods extend to two sides of the sliders, printing blocks are arranged at the front ends and the rear ends of the fixing rods, mounting blocks are fixedly sleeved on the front portions of the sliders by the fixing rods, springs I sleeved on the fixing rods are arranged on the rear sides of the mounting blocks, the rear sides of the springs I are connected to the sliders, opposite sides of the two groups of mounting blocks are rotatably connected with a rotating roller, mounting rods are uniformly arranged at two ends of the front side of the fixing frame, the front ends of the mounting rods are connected with scale plates, transparent plates I are arranged on opposite sides of the two groups of the scale plates I, and the transparent plates I are positioned right in front of the printing blocks, the inner wall both sides of fixed frame all are provided with transparent plate two, and transparent plate two is located the rear side print block is the positive rear, transparent plate one all is provided with the mark paper with the opposite side of transparent plate two, the rear end both sides of fixed frame all are provided with scale plate two, the left side bottom of fixed frame is provided with the base, and is provided with the motor on the base, the power end of motor is connected with the lead screw, the spiro union has and the left side on the lead screw the movable block that the slider is connected, the power end of motor is connected with pushing mechanism, the right side bottom of fixed frame is provided with ink mechanism.

Preferably, pushing mechanism is including cup jointing the gear one on the motor power end, the rear side meshing of gear one is connected with gear two, the one end at gear two tops is provided with the round bar, gear cup joints in the pivot, the bottom of pivot is rotated and is installed on the base, swing joint has push rod assembly on the round bar.

Preferably, the push rod subassembly includes the guide way of swing joint on the round bar, the bottom of guide way is provided with the connecting rod, the bottom of connecting rod is connected on the push rod body, push rod body sliding connection is on the rear side bottom of fixed frame, and the right-hand member of push rod body runs through fixed frame.

Preferably, the ink mechanism includes the china ink bucket, the bottom of china ink bucket is connected on the bottom plate, the front side of bottom plate is connected in the axis of rotation, the top of axis of rotation is rotated and is installed on the mount pad, the left end of mount pad is connected on fixed frame, the left side of bottom plate is provided with the spring two of being connected with fixed frame, the rear side at bottom plate top is provided with the contact piece relative with the push rod body.

Preferably, the ink barrel comprises an ink barrel body arranged on the bottom plate, an ink outlet pipe is arranged at the bottom of the right side of the ink barrel body, and a filter plate is arranged on the upper portion of the inner wall of the ink barrel body.

Preferably, the top of the ink barrel body is movably connected with a cover body, and the ink outlet pipe is provided with a valve.

Compared with the prior art, the invention has the beneficial effects that: through the drive movable block, make the live-rollers roll downwards at concrete slab's the face of awaiting measuring, when concrete slab department has sunken and protruding, elasticity through spring one, make the dead lever can drive preceding, the ink of back printing piece contacts respectively on the mark paper of transparent plate one and transparent plate two, and then can leave the seal of a government organization in old china on the mark paper, thereby pass through scale plate one and scale plate two, it has the region of vertical error to note concrete slab, the follow-up processing of being convenient for, when the drive movable block, push rod body reciprocating contact piece, make the bottom plate pass through the axis of rotation swing back and forth, and then make this internal ink of china ink bucket rock back and forth, thereby can avoid the ink to condense, block up out the china ink pipe, the influence is to the brush china ink of printing piece.

Drawings

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

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

FIG. 3 is a rear view of the structure of the present invention;

FIG. 4 is a schematic view of the structure of the present invention at B;

FIG. 5 is a schematic view of the structure of the present invention at position C;

FIG. 6 is a schematic structural diagram of an ink mechanism according to the present invention.

In the figure: 1. a fixing frame; 2. a through groove; 3. a slider; 4. fixing the rod; 5. a printing block; 6. a first spring; 7. mounting blocks; 8. a rotating roller; 9. mounting a rod; 10. a first scale plate; 11. a first transparent plate; 12. a second transparent plate; 13. a second scale plate; 14. a motor; 15. a screw rod; 16. a movable block; 17. a pushing mechanism; 171. a first gear; 172. a second gear; 173. a round bar; 174. a rotating shaft; 175. a push rod assembly; 1751. a guide groove; 1752. a connecting rod; 1754. a push rod body; 18. an ink mechanism; 181. an ink tank; 1811. an ink barrel body; 1812. an ink outlet pipe; 1813. filtering the plate; 182. a base plate; 183. a rotating shaft; 184. a mounting seat; 185. a second spring; 186. and a contact block.

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.

Example 1

Referring to fig. 1 to 5, the verticality detection device for a concrete member with a marking function comprises a fixing frame 1, through grooves 2 are formed in both sides of the fixing frame 1, sliders 3 are slidably arranged in both groups of through grooves 2, fixing rods 4 penetrate through both groups of sliders 3, both front and rear ends of each fixing rod 4 extend to both sides of the slider 3, printing blocks 5 are arranged at both front and rear ends of each fixing rod 4, a mounting block 7 is fixedly sleeved in front of each slider 3 by each fixing rod 4, a first spring 6 sleeved on each fixing rod 4 is arranged at the rear side of each mounting block 7, the rear side of each first spring 6 is connected to each slider 3, opposite sides of both groups of mounting blocks 7 are rotatably connected with a rotating roller 8, mounting rods 9 are uniformly arranged at both ends of the front side of the fixing frame 1, both front ends of the mounting rods 9 are connected with first scale plates 10, and both opposite sides of both groups of the first scale plates 10 are provided with first transparent plates 11, and transparent plate 11 is located the dead ahead of front side printing block 5, the inner wall both sides of fixed frame 1 all are provided with transparent plate two 12, and transparent plate two 12 is located the dead behind of rear side printing block 5, the opposite side of transparent plate 11 and transparent plate two 12 all is provided with the mark paper, the mark paper is pasted on transparent plate 11 and transparent plate two 12, conveniently tear the change, the rear end both sides of fixed frame 1 all are provided with scale plate two 13, the left side bottom of fixed frame 1 is provided with the base, and be provided with motor 14 on the base, the power end of motor 14 is connected with lead screw 15, the spiro union has the movable block 16 of being connected with left side slider 3 on the lead screw 15, the power end of motor 14 is connected with pushing mechanism 17, the right side bottom of fixed frame 1 is provided with ink mechanism 18.

The method comprises the steps of placing a fixed frame 1 on a horizontal ground, vertically placing a concrete slab to be detected on a horizontally placed support, adjusting the height of the support to align the bottom of the concrete slab with the initial scale mark of a scale plate I10, driving a lead screw 15 to drive a sliding block 3 on a movable block 16 to move in a through groove 2 by driving a motor 14, enabling a rotating roller 8 to be flush with the top of the concrete slab, enabling the rotating roller 8 to contact the surface to be detected of the concrete slab by moving the fixed frame 1, continuing to move the fixed frame 1 in the direction of the surface to be detected, enabling a mounting block 7 to drive a fixed rod 4 to move in the sliding block 3, enabling a spring I6 to compress for a certain stroke, enabling the fixed rod 4 to move to a position after the fixed frame 4 is moved, ensuring that front and rear printing blocks 5 are not in contact with marking paper, and enabling the ink to be coated on the printing blocks 5 through an ink mechanism 18 manually, after the rotating roller 8 and the printing block 5 are both prepared, the movable block 16 is driven by the motor 14, the rotating roller 8 rolls downwards on the surface to be measured of the concrete slab, when the concrete slab is sunken and raised, the fixing rod 4 can drive the front and rear printing blocks 5 to respectively contact with the marking paper of the first transparent plate 11 and the second transparent plate 12 through the elastic force of the first spring 6, marks can be left on the marking paper, and the area where the concrete slab has vertical errors can be recorded through the first scale plate 10 and the second scale plate 13, so that subsequent processing is facilitated.

Example 2

Referring to fig. 1 to 5, the verticality detection device for a concrete member with a marking function comprises a fixing frame 1, through grooves 2 are formed in both sides of the fixing frame 1, sliders 3 are slidably arranged in both groups of through grooves 2, fixing rods 4 penetrate through both groups of sliders 3, both front and rear ends of each fixing rod 4 extend to both sides of the slider 3, printing blocks 5 are arranged at both front and rear ends of each fixing rod 4, a mounting block 7 is fixedly sleeved in front of each slider 3 by each fixing rod 4, a first spring 6 sleeved on each fixing rod 4 is arranged at the rear side of each mounting block 7, the rear side of each first spring 6 is connected to each slider 3, opposite sides of both groups of mounting blocks 7 are rotatably connected with a rotating roller 8, mounting rods 9 are uniformly arranged at both ends of the front side of the fixing frame 1, both front ends of the mounting rods 9 are connected with first scale plates 10, and both opposite sides of both groups of the first scale plates 10 are provided with first transparent plates 11, and transparent plate 11 is located the dead ahead of front side printing piece 5, the inner wall both sides of fixed frame 1 all are provided with transparent plate two 12, and transparent plate two 12 is located the dead back of rear side printing piece 5, the opposite side of transparent plate 11 and transparent plate two 12 all is provided with the mark paper, the rear end both sides of fixed frame 1 all are provided with scale plate two 13, the left side bottom of fixed frame 1 is provided with the base, and be provided with motor 14 on the base, the power end of motor 14 is connected with lead screw 15, the spiro union has the movable block 16 of being connected with left side slider 3 on the lead screw 15, the power end of motor 14 is connected with pushing mechanism 17, the right side bottom of fixed frame 1 is provided with ink mechanism 18.

The pushing mechanism 17 comprises a first gear 171 sleeved on the power end of the motor 14, a second gear 172 is meshed with the rear side of the first gear 171, a round rod 173 is arranged at one end of the top of the second gear 172, the second gear 172 is sleeved on a rotating shaft 174, the bottom end of the rotating shaft 174 is rotatably installed on the base, and a push rod assembly 175 is movably connected to the round rod 173.

Push rod assembly 175 includes the guide way 1751 of swing joint on round bar 173, and the bottom of guide way 1751 is provided with connecting rod 1752, and the bottom of connecting rod 1752 is connected on push rod body 1754, and push rod body 1754 sliding connection is on the rear side bottom of fixed frame 1, and the right-hand member of push rod body 1754 runs through fixed frame 1.

When the motor 14 drives the screw rod 15 to rotate, the first gear 171 rotates, so that the second gear 172 drives the round rod 173 to move along, and then the connecting rod 1752 on the guide groove 1751 is driven to move, and the push rod body 1754 can be driven to reciprocate.

Example 3

Referring to fig. 1 to 6, the verticality detection device for a concrete member with a marking function comprises a fixing frame 1, through grooves 2 are formed in both sides of the fixing frame 1, sliders 3 are slidably arranged in both groups of through grooves 2, fixing rods 4 penetrate through both groups of sliders 3, both front and rear ends of each fixing rod 4 extend to both sides of the slider 3, printing blocks 5 are arranged at both front and rear ends of each fixing rod 4, a mounting block 7 is fixedly sleeved in front of each slider 3 by each fixing rod 4, a first spring 6 sleeved on each fixing rod 4 is arranged at the rear side of each mounting block 7, the rear side of each first spring 6 is connected to each slider 3, opposite sides of both groups of mounting blocks 7 are rotatably connected with a rotating roller 8, mounting rods 9 are uniformly arranged at both ends of the front side of the fixing frame 1, both front ends of the mounting rods 9 are connected with first scale plates 10, and both opposite sides of both groups of the first scale plates 10 are provided with first transparent plates 11, and transparent plate 11 is located the dead ahead of front side printing piece 5, the inner wall both sides of fixed frame 1 all are provided with transparent plate two 12, and transparent plate two 12 is located the dead back of rear side printing piece 5, the opposite side of transparent plate 11 and transparent plate two 12 all is provided with the mark paper, the rear end both sides of fixed frame 1 all are provided with scale plate two 13, the left side bottom of fixed frame 1 is provided with the base, and be provided with motor 14 on the base, the power end of motor 14 is connected with lead screw 15, the spiro union has the movable block 16 of being connected with left side slider 3 on the lead screw 15, the power end of motor 14 is connected with pushing mechanism 17, the right side bottom of fixed frame 1 is provided with ink mechanism 18.

The pushing mechanism 17 comprises a first gear 171 sleeved on the power end of the motor 14, a second gear 172 is meshed with the rear side of the first gear 171, a round rod 173 is arranged at one end of the top of the second gear 172, the second gear 172 is sleeved on a rotating shaft 174, the bottom end of the rotating shaft 174 is rotatably installed on the base, and a push rod assembly 175 is movably connected to the round rod 173.

Push rod assembly 175 includes the guide way 1751 of swing joint on round bar 173, and the bottom of guide way 1751 is provided with connecting rod 1752, and the bottom of connecting rod 1752 is connected on push rod body 1754, and push rod body 1754 sliding connection is on the rear side bottom of fixed frame 1, and the right-hand member of push rod body 1754 runs through fixed frame 1.

The ink mechanism 18 includes an ink tank 181, the bottom end of the ink tank 181 is connected to a bottom plate 182, the front side of the bottom plate 182 is connected to a rotation shaft 183, the top end of the rotation shaft 183 is rotatably mounted on a mounting seat 184, the left end of the mounting seat 184 is connected to a fixed frame 1, a second spring 185 connected to the fixed frame 1 is disposed on the left side of the bottom plate 182, the bottom plate 182 can swing back and forth, and a contact block 186 opposite to a push rod body 1754 is disposed on the rear side of the top of the bottom plate 182.

The ink tank 181 includes an ink tank body 1811 disposed on the bottom plate 182, an ink outlet tube 1812 disposed at the right bottom of the ink tank body 1811, and a filter pad 1813 disposed at the upper portion of the inner wall of the ink tank body 1811, where the filter pad 1813 can prevent foreign substances from entering below the filter pad 1813 each time ink is added.

The top of the ink barrel body 1811 is movably connected with a cover body, and the ink outlet tube 1812 is provided with a valve.

Ink can be added into the ink barrel body 1811 by opening the cover body, the valve is opened, ink can be discharged through the ink outlet pipe 1812, and the ink is manually smeared on the brush, so that the ink can be coated on the printing block 5 subsequently.

When the motor 14 works, the push rod body 1754 is in reciprocating contact with the contact block 186, so that the bottom plate 182 swings back and forth through the rotating shaft 183, and further, ink in the ink barrel body 1811 swings back and forth, and the situation that the ink is condensed and blocks the ink outlet pipe 1812 can be avoided.

The electrical components are electrically connected with an external master controller and 220V mains supply, and the master controller can be a conventional known device controlled by a computer and the like.

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 invention, the scope of which is defined in the appended claims and their equivalents.