CN113375610A

CN113375610A - Automatic actual measurement device of building engineering

Info

Publication number: CN113375610A
Application number: CN202110532843.6A
Authority: CN
Inventors: 陈兰兰; 李扬杰; 李世海
Original assignee: Guizhou Light Industry Technical College
Current assignee: Guizhou Light Industry Technical College
Priority date: 2021-05-17
Filing date: 2021-05-17
Publication date: 2021-09-10
Anticipated expiration: 2041-05-17
Also published as: CN113375610B

Abstract

The invention provides an automatic actual measurement device for building engineering, which structurally comprises a base, a telescopic disc, a telescopic rod, a push rod, a support rod, a measurer and a positioning device, wherein the upper end of the base of the measurer is fixedly connected with the telescopic disc, the telescopic rod is in clearance fit with the telescopic disc, the push rod is arranged on the side edge of the telescopic disc, the support rod and the push rod are integrated, and the measurer is arranged at the upper end of the support rod. Thereby effectively increasing the measurement efficiency.

Description

Automatic actual measurement device of building engineering

Technical Field

The invention relates to the field of building measurement, in particular to an automatic actual measurement device for building engineering.

Background

Actual measurement in the building industry is a standard for judging the quality of houses, so that the sizes (length, width and height) of the interiors of the houses can be rapidly and accurately measured through an automatic actual measurement device, the measurement efficiency of various houses can be increased under the effect of automatic adjustment measurement, and the measurement progress is improved;

in summary, the present inventors found that the following defects mainly exist in the conventional actual measurement device: real volume of actual measurement device laminates each other through the triangle-shaped shape of self and wall contained angle and can carry out the automation when measuring the perpendicular of wall contained angle and roughness and stretch out the measurement, causes the contained angle if protrusion or hang down the inconsistent caliber of straightness then can directly bend and continuously stretch out to topmost through the elasticity of self, makes the observer can't look directly at the problem place at contained angle position at once, causes its efficiency that can directly prolong the measurement house to produce the slow phenomenon of progress.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: the utility model provides a building engineering automation actual measurement device, its structure includes base, flexible dish, telescopic link, ejector pin, bracing piece, caliber the base upper end carries out fixed connection with flexible dish, the telescopic link carries out clearance fit with flexible dish, the ejector pin is installed in the side of flexible dish, the bracing piece is as an organic whole with the ejector pin, the caliber is installed in the upper end of bracing piece.

The caliber is provided with a connecting hole, a rotating wheel, a movable block, an extension rod and a positioning device, wherein the rotating wheel on the side of the connecting hole is provided with a corresponding gap, the movable block is movably connected with the rotating wheel, the extension rod is embedded into the movable block, the positioning device is movably connected with the extension rod, and the positioning device and the extension rod are three and form a triangular shape.

As a further improvement of the present invention, the positioning device is provided with an outer frame, a limiting block, a connecting groove, a rebounding shaft, and a protruding block, wherein the outer frame and the limiting block are integrated, the connecting groove is fixedly connected with the limiting block, the rebounding shaft is installed at the upper end of the connecting groove, the protruding block is movably connected with the rebounding shaft, and the protruding block is circular and connected with the rebounding shaft.

As a further improvement of the invention, the bump is provided with a solid layer, a positioning seat and a positioning body, the solid layer is fixedly connected with the positioning seat, the positioning body is embedded in the positioning seat, the solid layer is formed in an irregular shape, and the positioning seat is internally provided with a corresponding positioning body, so that the positioning body is in a trapezoidal shape.

As a further improvement of the invention, the fixed point body is provided with a positioning groove, a movable device and a contact end, the positioning groove is in clearance fit with the movable device, the contact end is arranged at the upper end of the movable device and is movably connected with the movable device, the positioning groove is in a trapezoidal concave shape, and the movable device and the positioning groove have corresponding clearance, so that the end surface of the contact end is formed by an arc and a plane.

As a further improvement of the invention, the mobilizer is provided with a female wheel, a contraction ring, a balance block and a connecting shaft, the female wheel is in clearance fit with the contraction ring, the balance block is arranged on an outer ring of the contraction ring, the connecting shaft penetrates through the balance block and is movably connected with the contraction ring, and a positioning ring is arranged in the middle of the female wheel, so that the contraction ring and the female wheel have corresponding clearance, and the balance block is in a solid state, so that two connecting shafts are arranged in the contraction ring.

As a further improvement of the present invention, the connecting groove is provided with a solid block, a connecting layer, an introducing channel and a detacher, the solid block and the connecting layer are integrated, the introducing channel is embedded in the connecting layer, the detacher is fixed in the introducing channel, and the solid block is in an arc shape.

As a further improvement of the invention, the detacher is provided with a pulley, a movable rod, an overlapping block and an elastic body, the pulley is movably connected with the movable rod, the overlapping block and the movable rod are integrated, the elastic body is arranged below the overlapping block, and the pulley and the movable rod are both provided with two pulleys and two movable rods which form a symmetrical state.

As a further improvement of the invention, the elastic body is provided with a connecting body, a spring and a supporting body, wherein the connecting body is movably connected with the spring, the supporting body is embedded in the upper end of the spring, and the supporting body has corresponding elasticity and toughness.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the actual measurement device is positioned and included in the included angle of the wall through the self shape when the included angle of the wall is measured through the self triangular shape, so that the telescopic rod can be driven to move while the telescopic rod extends out, the positioning device can eject the bump under the action of the self rebounding shaft when encountering the phenomenon that the wall is sunken or protruded, and the shape of the contact end of the bump can be tightly attached to the sunken part, so that an observer can effectively observe the specific problem of the specific position of the wall, and the measurement efficiency can be effectively increased.

2. According to the invention, the detacher arranged in the guide-in channel in the connecting groove can rapidly detach the connecting part of each part through the mutual matching of the pulley and the moving rod, so that the detaching efficiency can be increased under the mutual matching of the spring and the supporting body, and the elastic body can effectively achieve the purposes of timely maintaining the relevant part, thereby improving the measurement accuracy of the positioning device and avoiding the phenomenon of overlarge deviation.

Drawings

Fig. 1 is a schematic structural diagram of an automatic actual measurement device in a building engineering.

Fig. 2 is a schematic top view of a measuring device.

Fig. 3 is a front view of a positioning device.

Fig. 4 is a schematic cross-sectional view of a bump.

Fig. 5 is a schematic view of a structure of a pointing body provided with a member.

Fig. 6 is a schematic view of the whole structure of an actuator.

Fig. 7 is a schematic view of a front view of a connecting groove.

Fig. 8 is a front view of the detacher.

Fig. 9 is a schematic structural view of an elastic body.

In the figure: base-1, telescopic disc-2, telescopic rod-3, ejector rod-4, support rod-5, measurer-6, connecting hole-61, rotating wheel-62, movable block-63, extension rod-64, positioning device-65, outer frame-651, limit block-652, connecting groove-653, rebound shaft-654, bump-655, solid layer-a 1, positioning seat-a 2, fixed point body-a 3, positioning groove-a 31, movable device-a 32, contact end-a 33, female wheel-b 1, shrink ring-b 2, balance block-b 3, connecting shaft-b 4, solid block-c 1, connecting layer-c 2, leading-in channel-c 3, detacher-c 4, pulley-c 41, movable rod-c 42, coincident block-c 43, Elastomer-c 44, connector-d 1, spring-d 2 and support-d 3.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

fig. 1 to 6 show:

the invention provides an automatic actual measurement device for building engineering,

the structure of the measuring device comprises a base 1, a telescopic disc 2, a telescopic rod 3, a push rod 4, a support rod 5 and a measuring device 6, wherein the upper end of the base 1 is fixedly connected with the telescopic disc 2, the telescopic rod 3 and the telescopic disc 2 are in clearance fit, the push rod 4 is installed on the side edge of the telescopic disc 2, the support rod 5 and the push rod 4 are integrated, and the measuring device 6 is installed on the upper end of the support rod 5.

The caliber 6 is provided with a connecting hole 61, a rotating wheel 62, a movable block 63, an extension rod 64 and a positioning device 65, the connecting hole 61 and the side rotating wheel 62 are provided with corresponding gaps, the movable block 63 is movably connected with the rotating wheel 62, the extension rod 64 is embedded into the movable block 63, the positioning device 65 is movably connected with the extension rod 64, the positioning device 65 and the extension rod 64 are provided with three components and form a triangular shape, and the positioning device 65 and the extension rod 64 can be effectively matched with each component to be fixed at the included angle of the wall through the self-composed shape.

The positioning device 65 is provided with an outer frame 651, a limiting block 652, a connecting groove 653, a bounce shaft 654 and a bump 655, wherein the outer frame 651 and the limiting block 652 are integrated, the connecting groove 653 and the limiting block 652 are fixedly connected, the bounce shaft 654 is installed at the upper end of the connecting groove 653, the bump 655 is movably connected with the bounce shaft 654, the bump 655 has a circular shape and is connected with the bounce shaft 654, and the bump 655 can be controlled by the bounce shaft 654 through the circular shape of the bump 655 and can effectively move in the wall.

The bump 655 is provided with a solid layer a1, a positioning seat a2 and a positioning body a3, the solid layer a1 is fixedly connected with the positioning seat a2, the positioning body a3 is embedded in the positioning seat a2, the solid layer a1 is formed in an irregular shape, and a corresponding positioning body is installed inside the positioning seat a2, so that the positioning body a3 is in a trapezoid shape, the solid layer a1 can effectively fix the positioning seat a2 through the shape of the solid layer a1, and the positioning seat a2 can limit the positioning body a3 through the positioning body installed inside, so that the positioning body a3 can be embedded in the wall through the shape of the trapezoid.

The fixed point body a3 is provided with a positioning groove a31, a movable device a32 and a contact end a33, the positioning groove a31 is in clearance fit with the movable device a32, the contact end a33 is installed at the upper end of the movable device a32 and is movably connected with the movable device a32, the positioning groove a31 is in a trapezoidal concave shape, corresponding clearances are formed between the movable device a32 and the positioning groove a31, the end face of the contact end a33 is an arc and a plane, and the positioning groove a31 can limit the movable device a32 through the trapezoidal concave state of the positioning groove a31, so that the movable device a32 can move without obstacles through the clearances.

The mover a32 is provided with a female wheel b1, a contraction ring b2, a balance weight b3 and a connecting shaft b4, the female wheel b1 is in clearance fit with the contraction ring b2, the balance weight b3 is mounted on an outer ring of the contraction ring b2, the connecting shaft b4 penetrates through the balance weight b3 and the contraction ring b2 to be movably connected, a positioning ring is mounted in the middle of the female wheel b1, so that the contraction ring b2 and the female wheel b1 have corresponding gaps, the balance weight b3 is in a solid state, the connecting shaft b4 is provided with two in the contraction ring b2, the female wheel b1 can realize fixed-point rotation through the positioning ring at the center, and the contraction ring b2 can be driven to move relative to each other through the gap between the female wheel b1 and the contraction ring b 2.

The specific functions and operation flow of this embodiment are as follows:

in the invention, the actual measurement device can be positioned in the included angle of the wall through the base 1 of the actual measurement device, so that the telescopic rod 3 can be automatically extended out of the telescopic disc 2 after positioning, the ejector rod 4 and the support rod 5 are driven to continuously extend out of the measurer 6, the measurer 6 can simultaneously extend out of the positioning device 65 and extrude and attach the positioning device 65 to the plane of the wall through the movable block 63 arranged on the measurer 6, when the positioning device 65 encounters a recess or a protrusion of the wall, the bump 655 can be rebounded out through the rebounding shaft at the upper end of the connecting groove of the measurer 6, so that the bump 653 is attached to the recessed wall through the contact end a33 of the fixed point 654 a3 of the fixed point 654 a 655 of the internal positioning seat a2, meanwhile, the movable device a32 can drive the contraction ring b2 to extend out the connecting shaft b4 through the female wheel b1 of the movable device to increase the attaching effect of the bump 655 to the recessed wall, so that an observer can effectively observe specific problems of the wall at a specific position directly, thereby effectively increasing the measurement efficiency.

Example 2:

fig. 7 to 9 show:

the structure of the connecting groove 653 comprises a solid block c1, a connecting layer c2, a lead-in channel c3 and a detacher c4, wherein the solid block c1 and the connecting layer c2 are integrated, the lead-in channel c3 is embedded into the connecting layer c2, the detacher c4 is fixed into the lead-in channel c3, the solid block c1 is in an arc shape, and the solid block c1 can effectively and fixedly connect the components with each other through the arc shape of the solid block c1 and can be embedded into the components.

The detacher c4 is provided with a pulley c41, a moving rod c42, an overlapping block c43 and an elastic body c44, the pulley c41 is movably connected with the moving rod c42, the overlapping block c43 and the moving rod c42 are integrated, the elastic body c44 is installed below the overlapping block c43, two pulleys c41 and two moving rods c42 are arranged and form a symmetrical state, and the pulleys c41 and the moving rod c42 can effectively balance the assembly and disassembly of the components through the symmetrical state of the pulleys c41 and the moving rod c 42.

The elastic body c44 is provided with a connecting body d1, a spring d2 and a supporting body d3, the connecting body d1 is movably connected with the spring d2, the supporting body d3 is embedded into the upper end of the spring d2, the supporting body d3 has corresponding elasticity and toughness, and the supporting body d3 can effectively assist the spring d2 in detaching the component through the elasticity and the toughness of the supporting body, so that the detaching efficiency can be improved.

The specific functions and operation flow of this embodiment are as follows:

in the invention, under the basic action of embodiment 1, the detacher c4 installed inside the guide channel c3 of the connection groove 633 can accelerate the detaching effect of the positioning device 65 through the mutual matching of the pulley c41 and the moving rod c42, so that when the positioning device 65 is pulled out manually, the pulley c41 drives the moving rod c42 to move, and the spring d2 inside the elastic body c44 rebounds, so that the support body d3 can push out the positioning device 65, thereby achieving the effect of rapid detaching, and further achieving the purposes of timely maintaining the relevant parts, improving the measurement accuracy of the positioning device, and stopping the excessive deviation phenomenon.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides an automatic actual measurement device of building engineering, its structure includes, base (1), flexible dish (2), telescopic link (3), ejector pin (4), bracing piece (5), caliber (6) its characterized in that: the upper end of the base (1) is fixedly connected with the telescopic disc (2), the telescopic rod (3) is in clearance fit with the telescopic disc (2), the ejector rod (4) is installed on the side edge of the telescopic disc (2), the support rod (5) and the ejector rod (4) are integrated, and the measurer (6) is installed at the upper end of the support rod (5);

the measurer (6) is provided with a connecting hole (61), a rotating wheel (62), a movable block (63), an extension rod (64) and a positioning device (65), the connecting hole (61) and the side rotating wheel (62) are provided with corresponding gaps, the movable block (63) and the rotating wheel (62) are movably connected, the extension rod (64) is embedded into the movable block (63), and the positioning device (65) and the extension rod (64) are movably connected.

2. The actual measurement device for building engineering automation of claim 1, wherein: the positioning device (65) is provided with an outer frame (651), a limiting block (652), a connecting groove (653), a rebounding shaft (654) and a bump (655), the outer frame (651) and the limiting block (652) are integrated, the connecting groove (653) is fixedly connected with the limiting block (652), the rebounding shaft (654) is installed at the upper end of the connecting groove (653), and the bump (655) is movably connected with the rebounding shaft (654).

3. The actual measurement device for building engineering automation of claim 2, wherein: the bump (655) is provided with a solid layer (a 1), a positioning seat (a 2) and a fixed point body (a 3), the solid layer (a 1) is fixedly connected with the positioning seat (a 2), and the fixed point body (a 3) is embedded in the positioning seat (a 2).

4. The actual measurement device for building engineering automation of claim 3, wherein: the fixed point body (a 3) is provided with a positioning groove (a 31), a movable device (a 32) and a contact end (a 33), the positioning groove (a 31) is in clearance fit with the movable device (a 32), and the contact end (a 33) is installed at the upper end of the movable device (a 32) and is movably connected with the upper end of the movable device.

5. The actual measurement device for building engineering automation of claim 4, wherein: the movable device (a 32) is provided with a female wheel (b 1), a contraction ring (b 2), a balance block (b 3) and a connecting shaft (b 4), the female wheel (b 1) is in clearance fit with the contraction ring (b 2), the balance block (b 3) is installed on the outer ring of the contraction ring (b 2), and the connecting shaft (b 4) penetrates through the balance block (b 3) and the contraction ring (b 2) to be movably connected.

6. The actual measurement device for building engineering automation of claim 2, wherein: the connecting groove (653) is provided with a solid block (c 1), a connecting layer (c 2), a lead-in channel (c 3) and a detacher (c 4), the solid block (c 1) and the connecting layer (c 2) are integrated, the lead-in channel (c 3) is embedded in the connecting layer (c 2), and the detacher (c 4) is fixed in the lead-in channel (c 3).

7. The actual measurement device for building engineering automation of claim 6, wherein: the detacher (c 4) is provided with a pulley (c 41), a moving rod (c 42), an overlapping block (c 43) and an elastic body (c 44), the pulley (c 41) is movably connected with the moving rod (c 42), the overlapping block (c 43) and the moving rod (c 42) are integrated, and the elastic body (c 44) is installed below the overlapping block (c 43).

8. The actual measurement device for building engineering automation of claim 7, wherein: the elastic body (c 44) is provided with a connecting body (d 1), a spring (d 2) and a supporting body (d 3), the connecting body (d 1) is movably connected with the spring (d 2), and the supporting body (d 3) is embedded in the upper end of the spring (d 2).