CN113532918A

CN113532918A - Outer wall energy-saving structure detection device

Info

Publication number: CN113532918A
Application number: CN202110805026.3A
Authority: CN
Inventors: 张燕伟; 张辉; 陆馨; 张慧芳; 朱绍锋; 蒋瑶; 严剑峰; 吴敏
Original assignee: Suzhou High Tech Zone Construction Engineering Quality Inspection Co ltd
Current assignee: Suzhou High Tech Zone Construction Engineering Quality Inspection Co ltd
Priority date: 2021-07-16
Filing date: 2021-07-16
Publication date: 2021-10-22

Abstract

The invention discloses an external wall energy-saving structure detection device which comprises a core taking machine for taking cores of a heat-insulating layer of an external wall, wherein the core taking machine is arranged on a core taking machine support, the core taking machine support comprises a lower base, a horizontal sliding table is arranged on the lower base, two long circular grooves are formed in the lower base and are respectively arranged on two sides of the horizontal sliding table, an upper base is arranged on the horizontal sliding table, a notch capable of being matched with the horizontal sliding table is formed in the bottom surface of the upper base, extension tables are arranged on two sides of the upper base and are provided with base bolt holes, and base bolts penetrate through the base bolt holes and the long circular grooves and are connected through base nuts. The upper base of the drill cylinder is integrally stable when the upper base moves forwards or backwards and cannot be separated from the lower base, and the base bolt moves in the long circular groove, so that the upper base can still move normally.

Description

Outer wall energy-saving structure detection device

Technical Field

The invention relates to a device for detecting energy-saving structures such as an insulating layer of an outer wall, in particular to a device for detecting the energy-saving structures of the outer wall.

Background

In the construction quality acceptance standard of the building energy-saving engineering GB50411-2019, the on-site core drilling inspection of the outer wall energy-saving construction method is determined through multiple demonstrations and tests on partial engineering, the method is simple and easy to implement, and the energy-saving effect of the finished engineering can be verified only by extracting a small amount of samples. And (3) drilling a core sample with the diameter of 70mm from one side (namely the outer wall) of the wall insulation layer by using a core drilling machine, wherein the core sample is drilled to the depth of reaching the surface of the structural layer or the base layer through the insulation layer, and the wall can be drilled through if necessary.

Selecting a relatively concealed part on the representative outer wall of the energy-saving structure from the sampling part for detecting and sampling the energy-saving structure of the outer wall, and considering different orientations and floors; it is necessary to ensure safe core drilling operations. However, the conventional core taking machine still adopts a manual hand-held mode, and the core taking machine has large vibration and impact force during working, so that operators are easy to be unstable to stand, and particularly core taking at a high place forms potential safety hazards. And the manual hand-held coring machine easily causes the coring to be not straight, the coring is broken, and the like.

When a core sample is drilled, cooling water is prevented from flowing into a wall body to pollute the wall surface as much as possible, and when the handheld core drilling machine is adopted, an operator is usually required to operate carefully to avoid the problems as much as possible. When the core sample is taken out from the drill bit, careful operation is needed to keep the core sample complete, and when the core sample is seriously damaged and the thickness of the energy-saving structure or the insulating layer is difficult to judge, the core sample needs to be sampled and inspected again, so that more labor and time are wasted.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the defects of the prior art are overcome, the outer wall energy-saving structure detection device is provided, the safety of operators during the operation of the core drilling machine is improved, the core drilling is straighter, the core drilling sample is complete, and the core drilling sample is not easy to break.

The technical scheme adopted by the invention for solving the technical problems is as follows: an outer wall energy-saving structure detection device comprises a core taking machine for taking cores of a heat preservation layer of an outer wall, wherein the core taking machine is installed on a core taking machine support, the core taking machine support comprises a lower base, a horizontal sliding table is installed on the lower base, two long circular grooves are formed in the lower base and are respectively arranged on two sides of the horizontal sliding table, an upper base is arranged on the horizontal sliding table, a notch capable of being matched with the horizontal sliding table is formed in the bottom surface of the upper base, extending tables are arranged on two sides of the upper base and are provided with base bolt holes, base bolts penetrate through the base bolt holes and the long circular grooves and are connected through base nuts, a vertical guide rail is installed on the upper base, a first sliding block capable of lifting on the vertical guide rail is installed on the vertical guide rail and is horizontally connected with a right installation seat, and the right installation seat is detachably connected with the left installation seat, the core machine comprises a machine body, wherein the front end of the machine body is provided with a machine body clamping part, the front end of the machine body clamping part is provided with a drill cylinder connecting part, and the right mounting seat and the left mounting seat form a clamping cavity capable of clamping the machine body clamping part of the core machine.

Further, the right mounting seat is provided with a right inner concave portion, the left mounting seat is provided with a left inner concave portion, an arc-shaped right cushion pad is arranged between the right inner concave portion and the outer surface of the machine body clamping portion, and an arc-shaped left cushion pad is arranged between the left inner concave portion and the outer surface of the machine body clamping portion.

Furthermore, a plurality of extending holes are formed in the surface of the right inner concave portion of the right mounting seat inwards, the hole bottoms of the partial extending holes are inclined upwards relative to the hole openings, the hole bottoms of the partial extending holes are inclined downwards relative to the hole openings, the hole bottoms of the partial extending holes are horizontally arranged relative to the hole openings, and the hole openings of the extending holes can be sealed after the movable blocks capable of moving freely are arranged in the extending holes.

Furthermore, the edges of two sides of the base are provided with pulley holes, pulleys can be arranged in the pulley holes, the edges of two sides of the base are provided with sucker holes, suckers can be arranged in the sucker holes, and the sucker surface of each sucker faces the ground.

Further, two long circular slots that the base was seted up down are left long circular slot, right long circular slot, still install the second support on the base down, the second support mounting is in the left side of left long circular slot, second support bottom is fixed with lower base, the spliced pole is installed at second support top, set up the inner chamber in the spliced pole, the spring is packed into to the inner chamber, the spring rear end is connected with the fixed head, the spring front end is connected with the rear end of sliding head, and the front end of sliding head fixes the connecting rod, the front end of connecting rod stretches out the inner chamber outer with dust storage box fixed connection, dust storage box side connection connects the dirt box, the opening that connects the dirt box is located the bore section of thick bamboo below of coring machine of coring.

The invention has the beneficial effects that: according to the invention, through the arrangement of the horizontal sliding table, the upper base, the extension table, the base bolt and the long circular groove, when the core drilling machine works, the core drilling machine, together with the left mounting seat, the right mounting seat, the first sliding block, the vertical guide rail and the upper base, enables the drill cylinder to drill into a wall body to core or backwards enables the drill cylinder to withdraw, because the base bolt penetrates through the base bolt hole and the long circular groove and is connected by the base nut, the extension table cannot be separated from the lower base, so that the upper base is integrally stable and cannot be separated from the lower base when the upper base moves forwards or backwards, and the base bolt moves in the long circular groove, so that the upper base still can normally move.

Drawings

The invention is further described with reference to the following figures and embodiments.

FIG. 1 is a perspective view of an exterior wall energy saving structure detection device according to a preferred embodiment of the present invention;

FIG. 2 is a schematic top view of FIG. 1;

FIG. 3 is a schematic front view of FIG. 1;

FIG. 4 is a schematic structural view of the right mounting seat with an extending hole;

FIG. 5 is a schematic view of the connection post to the dust box;

101, a machine body, 102, a machine body clamping part, 103, a drill cylinder connecting part, 104 and a drill cylinder;

201. the horizontal sliding table comprises a lower base 202, a horizontal sliding table, 2031, a left long circular groove, 2032, a right long circular groove, 204, an upper base 205, a base bolt hole, 206, a vertical guide rail, 207, a first sliding block, 208, a right mounting seat, 209, a left mounting seat, 210, a right cushion pad, 211, a left cushion pad, 212, an extending hole, 213, a pulley hole, 214, a suction cup hole, 215 and a wall body;

302. the dust collecting box comprises a connecting column, 303, a dust storing box, 304, an inner cavity, 305, a spring, 306, a fixing head, 307, a sliding head, 308, a connecting rod, 309 and a dust collecting box.

Detailed Description

The invention will now be further described with reference to the accompanying drawings. These drawings are simplified schematic diagrams only illustrating the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1 to 5, in a preferred embodiment, an external wall energy-saving structure detection apparatus includes a core drilling machine for drilling a core into a heat insulation layer of an external wall and a core body detection instrument for detecting a core body drilled by the core drilling machine, the core drilling machine is mounted on a core drilling machine support, the core drilling machine support includes a lower base 201, a horizontal sliding table 202 is mounted on the lower base 201, the lower base 201 is provided with two long circular grooves, the two long circular grooves are respectively arranged at two sides of the horizontal sliding table 202, an upper base 204 is disposed on the horizontal sliding table 202, a notch capable of being matched with the horizontal sliding table 202 is formed in the bottom surface of the upper base 204, extension tables are disposed at two sides of the upper base 204, base bolt holes 205 are formed in the extension tables, base bolts pass through the base bolt holes 205 and the long circular grooves 203 and then are connected by base nuts so that the extension tables cannot be separated from the lower base, a vertical guide rail 206 is mounted on the upper base 204, the core drilling machine is characterized in that a first sliding block 207 capable of lifting on the vertical guide rail 206 is mounted on the vertical guide rail 206, the first sliding block 207 is horizontally connected with a right mounting seat 208, the right mounting seat 208 is detachably connected with a left mounting seat 209, the core drilling machine is provided with a machine body 101, a machine body clamping part 102 is arranged at the front end of the machine body 101, a drill barrel connecting part 103 is arranged at the front end of the machine body clamping part 102, and a clamping cavity capable of clamping the machine body clamping part 102 of the core drilling machine is formed by the right mounting seat 208 and the left mounting seat 209.

The core drilling machine is lifted relative to the vertical guide rail 206 by the first slider 207, and the height of the drill barrel 104 of the core drilling machine is adjusted. After the machine body clamping part 102 of the core extractor is clamped by the clamping cavity, the drill barrel 104 drills forwards into the wall 215 when the core extractor works. The machine body 101 of the core drilling machine is large in vibration force and hard to hold manually when the core drilling machine works, and a conventional core drilling machine support can only meet the supporting effect, is not stable enough when the core drilling machine works and is not suitable for high-rise operation of the core drilling machine. According to the invention, through the arrangement of the horizontal sliding table 202, the upper base 204, the extension table, the base bolt and the long circular groove, when the core drilling machine works, the core drilling machine, together with the left mounting seat 208, the right mounting seat 209, the first sliding block 207, the vertical guide rail 206 and the upper base 204, enables the drill cylinder 104 to drill into the wall 215 for core drilling or enables the drill cylinder 104 to withdraw backwards along the horizontal sliding table 202, because the base bolt penetrates through the base bolt hole 205 and the long circular groove and is connected by the base nut, the extension table cannot be separated from the lower base 201, so that the upper base 204 is integrally stable and cannot be separated from the lower base 201 when the drill cylinder moves forwards or backwards, and the base bolt moves in the long circular groove, the upper base 204 can still normally move, under the structural condition, the core drilling of the drill cylinder 104 is enabled to be straight, the core sample taken out is not easy to break, and the core sample is relatively complete.

The right mounting seat 208 has a right concave portion, the left mounting seat 209 has a left concave portion, an arc-shaped right cushion pad 210 is arranged between the right concave portion and the outer surface of the clamping portion of the machine body 101, and an arc-shaped left cushion pad 211 is arranged between the left concave portion and the outer surface of the clamping portion of the machine body 101. The right cushion pad 210 and the left cushion pad 211 can reduce vibration transmission during the operation of the core drilling machine, and are more suitable for aerial work.

The surface of the right inner concave part of the right mounting seat 208 is inwards provided with a plurality of extending holes 212, the hole bottoms of the partial extending holes 212 are upwards inclined relative to the hole openings, the hole bottoms of the partial extending holes 212 are downwards inclined relative to the hole openings, the hole bottoms of the partial extending holes 212 are horizontally arranged relative to the hole openings, and the hole openings of the extending holes 212 can be sealed after the movable blocks which can freely move are arranged in the extending holes 212. The movable block is arranged in the extending hole 212, the movable block can be equivalent to freely moving damping particles, the movable angle of the movable block is different, and when the core drilling machine vibrates, part of vibration transmitted to the core drilling machine support by the core drilling machine can be counteracted, so that the core drilling machine support generates less vibration, is more stable and is more suitable for high-altitude operation.

The edge of two sides of the base is provided with pulley holes 213, pulleys can be arranged in the pulley holes 213, the edge of two sides of the base is provided with sucker holes 214, suckers can be arranged in the sucker holes 214, and the sucker faces to the ground. After the pulley is arranged in the pulley hole 213, the whole lower base 201 can move left and right, and the core taking machine can take core in another position. After the sucker is arranged in the sucker hole 214, the sucker is adsorbed to the ground when the core drilling machine works, so that the core drilling machine support is more stable.

Another more preferable embodiment is that, compared with the above embodiments, a second support is further installed on the lower base, the second support is installed on the left side of the left long circular groove 2031, the bottom of the second support is fixed with the lower base, a connection column 302 is installed at the top of the second support, an inner cavity 304 is formed in the connection column 302, a spring 305 is installed in the inner cavity 304, the rear end of the spring 305 is connected with a fixing head 306, the front end of the spring 305 is connected with the rear end of a sliding head 307, a connection rod 308 is fixed at the front end of the sliding head 307, the front end of the connection rod 308 extends out of the inner cavity 304 and is fixedly connected with a dust storage box 303, the dust storage box 303 is connected with a dust receiving box 309 by the side, and the opening of the dust receiving box 309 is located below the drill barrel 104 of the core drilling machine. The dust storage box 303 and the dust receiving box 309 can be attached to the wall 215 under the elastic force of the spring 305, so that cooling water, dust and the like flowing out of the drill barrel 104 can be better received, and the wall surface is not easily polluted.

The above embodiments are merely illustrative of the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the content of the present invention and implement the present invention, and not to limit the scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered by the scope of the present invention.

Claims

1. The outer wall energy-saving structure detection device comprises a core taking machine for taking a core of a heat insulation layer of an outer wall and a detector for detecting a core body taken out by the core taking machine, and is characterized in that the core taking machine is mounted on a core taking machine support, the core taking machine support comprises a lower base (201), a horizontal sliding table (202) is mounted on the lower base (201), two long circular grooves are formed in the lower base (201), the two long circular grooves are respectively arranged on two sides of the horizontal sliding table (202), an upper base (204) is arranged on the horizontal sliding table (202), a notch capable of being matched with the horizontal sliding table (202) is formed in the bottom surface of the upper base (204), extension tables are arranged on two sides of the upper base (204), base bolt holes (205) are formed in the extension tables, base bolts penetrate through the base bolt holes (205) and the long circular grooves and then are connected through base nuts, vertical guide rails (206) are mounted on the upper base (204), the core machine is characterized in that a first sliding block (207) capable of lifting on the vertical guide rail (206) is mounted on the vertical guide rail (206), the first sliding block (207) is horizontally connected with a right mounting seat (208), the right mounting seat (208) is detachably connected with a left mounting seat (209), the core machine body (101) is arranged at the front end of the core machine body (101), a machine body clamping part (102) is arranged at the front end of the machine body clamping part (102), a drill barrel connecting part (103) is arranged at the front end of the machine body clamping part (102), and the right mounting seat (208) and the left mounting seat (209) form a clamping cavity capable of clamping the machine body clamping part (102) of the core machine.

2. The exterior wall energy-saving structure detection device as claimed in claim 1, wherein the right mounting seat (208) is provided with a right inner concave part, the left mounting seat (209) is provided with a left inner concave part, an arc-shaped right cushion pad (210) is arranged between the right inner concave part and the outer surface of the clamping part of the machine body (101), and an arc-shaped left cushion pad (211) is arranged between the left inner concave part and the outer surface of the clamping part of the machine body (101).

3. The exterior wall energy-saving structure detection device as claimed in claim 1, wherein a plurality of extending holes (212) are formed inwards on the surface of the right inner concave part of the right mounting seat (208), the hole bottoms of part of the extending holes (212) are inclined upwards relative to the hole openings, the hole bottoms of part of the extending holes (212) are inclined downwards relative to the hole openings, the hole bottoms of part of the extending holes (212) are horizontally arranged relative to the hole openings, and the hole openings of the extending holes (212) can be closed after freely movable blocks are installed in the extending holes (212).

4. The exterior wall energy-saving structure detection device of claim 1, wherein the base is provided with pulley holes (213) at two side edges, pulleys can be installed in the pulley holes (213), the base is provided with suction disc holes (214) at two side edges, suction discs can be installed in the suction disc holes (214), and the suction discs face the ground.

5. The exterior wall energy-saving structure detection device according to claim 1, wherein the two oblong grooves formed in the lower base (201) are a left oblong groove (2031) and a right oblong groove (2032), the lower base is further provided with a second support, the second support is installed on the left side of the left oblong groove (2031), the bottom of the second support is fixed with the lower base, the top of the second support is provided with a connecting column (302), an inner cavity (304) is formed in the connecting column (302), a spring (305) is installed in the inner cavity (304), the rear end of the spring (305) is connected with a fixed head (306), the front end of the spring (305) is connected with the rear end of a sliding head (307), the front end of the sliding head (307) is fixed with a connecting rod (308), the front end of the connecting rod (308) extends out of the inner cavity (304) and is fixedly connected with a dust storage box (303), the dust storage box (303) is connected with a dust receiving box (309) by side, the opening of the dust collecting box (309) is positioned below the drill barrel (104) of the core drilling machine.