阅读说明：本技术 垂直度可调校的墙面模板体系 (Wall template system with adjustable verticality ) 是由 高文财 彭福龙 范雄 李坚 于 2018-07-23 设计创作，主要内容包括：本发明一种垂直度可调校的墙面模板体系,包括：墙面模板、检测跨尺、第一调节斜撑；所述检测跨尺设于所述墙面模板一侧用于检测所述墙面模板的垂直度；所述第一调节斜撑设于所述墙面模板的另一侧的下方且与所述检测跨尺处于所述墙面模板的同一侧用于调整所述墙面模板的垂直度；所述第一调节斜撑为多个且间隔设置；所述检测跨尺包括第一竖杆,由所述第一竖杆的两端分别等长延伸的第一横杆和第二横杆。与相关技术相比,本发明一种垂直度可调校的墙面模板体系中,通过活动安装其上的检测跨尺来测量墙面模板的垂直度,通过设于墙面模板下方的调节斜撑对墙面模板的垂直度进行调节,经济效益好,调校效率较高、操作简易。(The invention relates to a wall surface template system with adjustable verticality, which comprises: the wall surface formwork, the detection span ruler and the first adjusting inclined strut; the detection span ruler is arranged on one side of the wall surface template and used for detecting the verticality of the wall surface template; the first adjusting inclined strut is arranged below the other side of the wall surface template and is positioned at the same side of the wall surface template with the detection span ruler for adjusting the verticality of the wall surface template; the first adjusting inclined struts are arranged at intervals; the detection span ruler comprises a first vertical rod, a first cross rod and a second cross rod, wherein the first cross rod and the second cross rod respectively extend from two ends of the first vertical rod in equal length. Compared with the prior art, in the wall formwork system with adjustable perpendicularity, the perpendicularity of the wall formwork is measured through the detection span ruler movably mounted on the wall formwork, and the perpendicularity of the wall formwork is adjusted through the adjusting inclined strut arranged below the wall formwork, so that the wall formwork system is good in economic benefit, high in adjusting efficiency and easy to operate.)

1. The utility model provides a hang down wall form board system of straightness adjustable school which characterized in that includes: the wall surface formwork, the detection span ruler and the first adjusting inclined strut; the detection span ruler is arranged on one side of the wall surface template and used for detecting the verticality of the wall surface template; the first adjusting inclined strut is arranged below the other side of the wall surface template and is positioned at the same side of the wall surface template with the detection span ruler for adjusting the verticality of the wall surface template; the first adjusting inclined struts are arranged at intervals; the detection span ruler comprises a first vertical rod, a first cross rod and a second cross rod, wherein the first cross rod and the second cross rod respectively extend from two ends of the first vertical rod in equal length; the first cross rod and the second cross rod are both vertical to the first vertical rod and are positioned on the same side of the first vertical rod; the end surfaces, far away from the first vertical rod, of the first cross rod and the second cross rod are abutted to the wall formwork; one end of the first cross rod, which is far away from the first vertical rod, is provided with a mounting part used for being connected with the wall formwork; and a verticality detection device is arranged on the first vertical rod.

2. The wall formwork system with adjustable perpendicularity according to claim 1, wherein one end of the first horizontal rod, which is far away from the first vertical rod, is provided with a first mounting hole penetrating through the first horizontal rod, and the wall formwork is provided with a second mounting hole penetrating through the wall formwork; the mounting member comprises a pin disposed through the first mounting hole and the second mounting hole; the pin is provided with a jack penetrating through the pin, and an inserting piece is arranged in the jack.

3. The perpendicularity-adjustable wall formwork system according to claim 2, wherein the mounting piece further comprises a pin cover, and the pin cover is arranged at the large end of the pin and used for preventing the pin from being disengaged.

4. The perpendicularity-adjustable wall formwork system according to claim 3, wherein the pin cover is riveted to the pin.

5. The perpendicularity-adjustable wall formwork system according to any one of claims 1 to 4, wherein the first adjusting inclined strut is provided with a length adjusting device for adjusting the overall length of the first adjusting inclined strut.

6. The wall form system with adjustable perpendicularity according to claim 5, wherein the length adjusting device comprises a first rod connected with the wall form and a second rod sleeved on the first rod and away from the wall form, the first rod is provided with a plurality of first rod adjusting holes, the second rod is provided with a plurality of second rod adjusting holes, and the overall length of the first adjusting inclined strut can be adjusted by adjusting the coincidence position of the first rod adjusting holes and the second rod adjusting holes.

7. The wall form system with adjustable perpendicularity according to claim 6, further comprising a second adjusting brace disposed on a side of the wall form remote from the first adjusting brace.

8. The perpendicularity-adjustable wall formwork system according to claim 7, wherein the second adjusting diagonal brace is multiple and is arranged opposite to the first adjusting diagonal brace.

9. The perpendicularity-adjustable wall formwork system according to claim 8, wherein the second adjusting brace is structurally identical to the first adjusting brace.

10. The system of claim 9, wherein the wall form is made of an aluminum alloy material; the verticality detection equipment is a building engineering detector.

Technical Field

The invention belongs to the technical field of aluminum formwork installation and manufacturing, and particularly relates to a wall formwork system with adjustable verticality

Background

In the building field, aluminum alloy formwork systems are widely popularized and applied because of their numerous advantages. The aluminum alloy building template system raw material is processed by adopting an integrally extruded aluminum profile, and the whole system has the advantages of high standardization degree, light weight, strong bearing capacity, high matching precision, cyclic use, no need of mechanical equipment assistance in the construction process, short construction period, no construction building rubbish and noise pollution, flat and smooth surface after concrete pouring, accordance with national low-carbon emission reduction and the like. The aluminum alloy formwork system relates to a wall formwork system, and the perpendicularity of the wall formwork system is required to be ensured to meet the design requirement in the installation and manufacturing of the wall formwork system. In the related art, in order to ensure the perpendicularity of a wall formwork system, the perpendicularity and the flatness of an aluminum formwork installation wall surface are mainly adjusted by a laser horizontal measuring instrument and a measuring tape. The related art is not enough in that the verticality and the flatness of the existing aluminum formwork installation wall surface are adjusted by adopting laser scanning and a measuring tape to measure the distance. The scheme needs to be provided with an expensive measuring instrument, is inconvenient to carry, requires an operator to learn the use method of the laser level measuring instrument, and has complex operation and low operation speed; and the effect is not good due to the adjustment of the tape measure.

Therefore, there is a need to provide a new wall form system with adjustable verticality to solve the above-mentioned technical problems.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a wall form system with adjustable verticality, which can effectively solve the technical problems mentioned in the background technology.

The application provides a wall template system of straightness adjustable school that hangs down includes: the wall surface formwork, the detection span ruler and the first adjusting inclined strut; the detection span ruler is arranged on one side of the wall surface template and used for detecting the verticality of the wall surface template; the first adjusting inclined strut is arranged below the other side of the wall surface template and is positioned at the same side of the wall surface template with the detection span ruler for adjusting the verticality of the wall surface template; the first adjusting inclined struts are arranged at intervals; the detection span ruler comprises a first vertical rod, a first cross rod and a second cross rod, wherein the first cross rod and the second cross rod respectively extend from two ends of the first vertical rod in equal length; the first cross rod and the second cross rod are both vertical to the first vertical rod and are positioned on the same side of the first vertical rod; the end surfaces, far away from the first vertical rod, of the first cross rod and the second cross rod are abutted to the wall formwork; one end of the first cross rod, which is far away from the first vertical rod, is provided with a mounting part used for being connected with the wall formwork; and a verticality detection device is arranged on the first vertical rod.

Preferably, one end of the first horizontal rod, which is far away from the first vertical rod, is provided with a first mounting hole which penetrates through the first horizontal rod, and the wall formwork is provided with a second mounting hole which penetrates through the wall formwork; the mounting member comprises a pin disposed through the first mounting hole and the second mounting hole; the pin is provided with a jack penetrating through the pin, and an inserting piece is arranged in the jack.

Preferably, the mounting piece further comprises a pin cover, and the pin cover is arranged at the large end of the pin and used for preventing the pin from falling off.

Preferably, the pin cover is riveted to the pin.

Preferably, the first adjusting inclined strut is provided with a length adjusting device for adjusting the overall length of the first adjusting inclined strut.

Preferably, length adjustment device include with first pole and cover that the wall template is connected are established keeping away from of first pole wall template second pole, be equipped with a plurality of first pole regulation holes on the first pole, be equipped with a plurality of second pole regulation holes on the second pole, through adjusting first pole regulation hole with the coincidence position in second pole regulation hole is adjustable the whole length of first regulation bracing.

Preferably, the wall form system that the straightness of straightness can be rectified that hangs down still including locating keeping away from of wall form the second of first regulation bracing one side is adjusted the bracing.

Preferably, the second adjusting inclined strut is multiple and is arranged opposite to the first adjusting inclined strut.

Preferably, the second adjusting inclined strut has the same structure as the first adjusting inclined strut.

Preferably, the wall surface template is made of an aluminum alloy material; the verticality detection equipment is a building engineering detector.

Compared with the prior art, in the wall template system with adjustable perpendicularity, the perpendicularity of the wall template is measured through the detection cross ruler movably mounted on the wall template, the perpendicularity of the wall template is adjusted through the adjusting diagonal brace arranged below the wall template, a practical and expensive laser instrument is not needed, the economic benefit is good, the installation worker is convenient to use, the detection cross ruler can be directly used after being installed, the perpendicularity of the wall template is adjusted by watching the deviation of a pointer of perpendicularity detection equipment, the result is visual, the adjusting efficiency is higher, and the operation is simple and easy.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a wall form system with adjustable verticality according to the present invention;

fig. 2 is a schematic view of the overall structure of a detection span ruler in the wall formwork system with adjustable verticality.

In the figure:

the wall surface formwork comprises a wall surface formwork 1, a detection span ruler 2, a first adjusting inclined strut 3 and a second adjusting inclined strut 4;

a second mounting hole 11;

the device comprises a first vertical rod 21, a first cross rod 22, a second cross rod 23, a mounting piece 24 and perpendicularity detection equipment 25;

a length adjusting device 31;

a first mounting hole 221;

a pin 241;

a first rod 311, a second rod 312;

an insertion hole 2411;

first lever adjustment aperture 3111.

Detailed Description

Referring to fig. 1-2, a wall form system with adjustable verticality comprises: the wall surface formwork comprises a wall surface formwork 1, a detection span ruler 2 and a first adjusting inclined strut 3; the detection span ruler 2 is arranged on one side of the wall formwork 1 and used for detecting the verticality of the wall formwork 1; the first adjusting inclined strut 3 is arranged below the other side of the wall formwork 1 and is positioned at the same side of the wall formwork 1 as the detection span ruler 2 to adjust the verticality of the wall formwork 1; the first adjusting inclined struts 3 are arranged at intervals; the detection span ruler 2 comprises a first vertical rod 21, a first cross rod 22 and a second cross rod 23, wherein the first cross rod 22 and the second cross rod 23 respectively extend from two ends of the first vertical rod 21 in equal length; the first cross bar 22 and the second cross bar 23 are both perpendicular to the first vertical bar 21 and are located on the same side of the first vertical bar 21; the end surfaces of the first cross rod 22 and the second cross rod 23 far away from the first vertical rod 21 are abutted against the wall formwork 1; one end of the first cross rod 22, which is far away from the first vertical rod 21, is provided with a mounting part 24 used for being connected with the wall formwork 1; the first vertical rod 21 is provided with a verticality detection device 25. One end of the first horizontal rod, which is far away from the first vertical rod 21, is provided with a first mounting hole 221 which penetrates through the first horizontal rod, and the wall formwork 1 is provided with a second mounting hole 11 which penetrates through the wall formwork; the mounting member 24 includes a pin 241 disposed through the first mounting hole 221 and the second mounting hole 11; the pin 241 is provided with a jack 2411 penetrating through the pin, and the jack 2411 is internally provided with an inserting piece. The mounting member 24 further includes a pin cover disposed at the large end of the pin 241 for preventing the pin 241 from coming out. The pin cover is riveted with the pin 241. The first adjusting inclined strut 3 is provided with a length adjusting device 31 for adjusting the overall length of the first adjusting inclined strut 3. Length adjustment device 31 includes first pole 311 and the cover of being connected with wall template 1 and establishes keeping away from wall template 1 second pole 312 of first pole 311, is equipped with a plurality of first pole regulation holes 3111 on the first pole 311, is equipped with a plurality of second pole regulation holes on the second pole 312, adjusts the whole length of the adjustable first regulation bracing 3 in coincident position in hole 3111 and the second pole regulation hole through adjusting first pole. The wall formwork system with adjustable verticality further comprises a second adjusting inclined strut 4 which is arranged on one side, far away from the first adjusting inclined strut 3, of the wall formwork 1. The second adjusting inclined strut 4 is a plurality of second adjusting inclined struts and is arranged opposite to the first adjusting inclined strut 3. The second adjusting inclined strut 4 has the same structure as the first adjusting inclined strut 3. The wall surface template 1 is made of aluminum alloy materials; the perpendicularity detecting apparatus 25 is a construction work detector.

According to the invention, a second cross rod 23 with a detection span of 2 inches is abutted against a wall formwork 1, a first cross rod 22 is fixed on the wall formwork 1 by utilizing a pin 241, the first cross rod 22 and the second cross rod 23 play a positioning role, the first cross rod 22 and the second cross rod 23 are both vertical to the wall formwork 1, the first cross rod 22 and the second cross rod 23 are both vertical to a first vertical rod 21, and the first vertical rod 21 is vertically arranged. The perpendicularity detection device 25 is mounted on the first vertical rod 21, and the perpendicularity of the wall formwork 1 is detected by looking at the deviation of the pointer of the perpendicularity detection device 25, and the deviation of the pointer is the inclination direction of the wall formwork 1. If the wall formwork 1 inclines, the adjustment can be carried out through the first adjusting inclined strut 3 and the second adjusting inclined strut 4 which are arranged below the wall root and can freely stretch out and draw back.

Compared with the prior art, in the wall template system with adjustable perpendicularity, the perpendicularity of the wall template is measured through the detection cross ruler movably mounted on the wall template, the perpendicularity of the wall template is adjusted through the adjusting diagonal brace arranged below the wall template, a practical and expensive laser instrument is not needed, the economic benefit is good, the installation worker is convenient to use, the detection cross ruler can be directly used after being installed, the perpendicularity of the wall template is adjusted by watching the deviation of a pointer of perpendicularity detection equipment, the result is visual, the adjusting efficiency is higher, and the operation is simple and easy.