CN112796519A

CN112796519A - Adjustable inclined strut device for basement single-side wall formwork and using method of adjustable inclined strut device

Info

Publication number: CN112796519A
Application number: CN202110105588.7A
Authority: CN
Inventors: 华春雷; 林环周; 李嘉嘉; 林宗亮; 张剑淋; 游齐锦
Original assignee: China Construction Fourth Engineering Division Corp Ltd; China Construction Fourth Engineering Bureau Construction and Development Co Ltd
Current assignee: China Construction Fourth Engineering Division Corp Ltd; China Construction Fourth Engineering Bureau Construction and Development Co Ltd
Priority date: 2021-01-26
Filing date: 2021-01-26
Publication date: 2021-05-14

Abstract

The invention discloses an adjustable diagonal bracing device for a basement single-side wall formwork and a using method thereof. The device can be installed at a position where light is dim and measurement operation is difficult by using the base capable of being adjusted in a displacement mode and the diagonal support piece matched with the auxiliary installation system and the auxiliary adjustment system, has strong applicability, and can be installed in an auxiliary mode in real time according to data provided by an external terminal of a designer.

Description

Adjustable inclined strut device for basement single-side wall formwork and using method of adjustable inclined strut device

Technical Field

The invention is applied to the technical field of construction engineering construction, and particularly relates to an adjustable inclined strut device for a basement single-side wall formwork and a using method thereof.

Background

The increasingly tense urban land causes engineering construction to develop into mountainous regions with complex terrain and large relief in order to meet the requirements. Large-scale complicated mountain region building, the geological conditions is complicated, and exploration is also more difficult, surely appear often that mountain region project basement outer wall construction operating space is not enough, leads to the unable normal condition of installing of outer wall side form, and construction environment light is dim simultaneously, measures the higher and precision of location installation operation degree of difficulty and hands over, often need measure fixed position in advance and make strutting arrangement in proper order for strutting arrangement commonality is relatively poor.

Disclosure of Invention

The invention aims to solve the technical problem of the prior art and provides an adjustable inclined strut device for a basement single-side wall formwork and a using method thereof.

In order to solve the technical problems, the adjustable inclined strut device for the basement single-side wall formwork is arranged between the ground and a side wall and used for supporting the side wall, and comprises a base fixed on the ground through embedded bolts, a plurality of groups of telescopic inclined strut members are arranged on the base, one end of each inclined strut member is rotatably connected with the base, the other end of each inclined strut member is connected with the side wall for supporting, one end of each inclined strut member, which is rotatably connected with the base, is provided with a limiting buckle used for limiting reverse rotation displacement of the inclined strut member, and the limiting buckle is fixedly connected with the base.

As a possible implementation manner, further, the base includes a bottom plate slide rail and a slide seat disposed on the bottom plate slide rail, the slide seat is slidably connected to the bottom plate slide rail in a fixed manner, and the slide seat is slidable relative to the bottom plate slide rail.

As a possible implementation manner, further, the diagonal support member comprises a support block, an internal threaded pipe and an external threaded pipe, one end of the external threaded pipe is in threaded connection with the internal threaded pipe, the other end of the external threaded pipe is rotatably connected to the sliding seat through a rotating shaft, a limiting buckle is arranged at the connection position of the external threaded pipe and the sliding seat, wing plates on two sides of the limiting buckle are fixed on the sliding seat through bolts, and a top plate of the limiting buckle abuts against the pipe wall of the external threaded pipe to limit the external threaded pipe; one end of the internal threaded pipe is in threaded connection with the external threaded pipe, and the other end of the internal threaded pipe is hinged to the supporting block.

As a possible implementation manner, further, the supporting block comprises a cross supporting plate, mounting holes are formed in the left side plate, the right side plate and the upper plate of the cross supporting plate, counterweight lead blocks are symmetrically arranged at the lower end of the lower plate of the cross supporting plate, and an auxiliary mounting system is arranged on the cross supporting plate.

As a possible implementation manner, further, the auxiliary installation system comprises an infrared distance meter, an LED indicator, a processor and a communication module, the infrared distance meter, the processor and the LED indicator are connected in sequence, the communication module is configured to transmit received preset data sent by an external terminal to the processor, the infrared distance meter measures the distance from the lower end of the cross support plate to the support block of the support member below the lower end of the cross support plate in real time to obtain the arrangement distance data of the support members, and sends the data to the processor, and the processor receives the measurement data of the infrared distance meter and the preset data sent by the communication module, and controls the LED indicator to operate according to the comparison result after comparing the measurement data with the preset data in real time.

As a possible implementation manner, the processor compares the size of the measurement data with that of the preset data, the processor controls the LED indicator to light red when the measurement data is larger than the preset data, the processor controls the LED indicator to light yellow when the measurement data is smaller than the preset data, and the processor controls the LED indicator to light green when the measurement data is equal to the preset data.

As a possible implementation manner, further, an adjusting auxiliary system is arranged between the sliding rail and the sliding seat, the adjusting auxiliary system includes a magnetic grid displacement sensor, a second LED indicator, a second processor and a second communication module, the magnetic grid displacement sensor, the second processor and the second LED indicator are connected in sequence, the second communication module is configured to transmit received preset data sent by an external terminal to the second processor, the magnetic grid displacement sensor measures a distance difference between one end of the sliding rail and one end of the sliding seat in real time and sends the data to the second processor, the second processor receives the measurement data of the magnetic grid displacement sensor and the preset data sent by the second communication module, and controls the second LED indicator to operate according to a comparison result after comparing the measurement data with the preset data in real time.

As a possible implementation manner, the second processor compares the size of the measurement data with that of the preset data, the processor controls the second LED indicator to light red when the measurement data is larger than the preset data, the processor controls the second LED indicator to light yellow when the measurement data is smaller than the preset data, and the processor controls the second LED indicator to light green when the measurement data is equal to the preset data.

A use method of the adjustable inclined strut device for the basement single-side wall formwork comprises the following steps:

s1, distributing preset data, and sending the preset data which is designed in advance to the processor and the second processor through the communication module and the second communication module respectively by using an external terminal;

s2, mounting a base, and fixedly mounting the bottom plate slide rail on the ground at one side of the side wall to be supported by using the embedded bolt;

s3, adjusting the position of the sliding seat, starting an adjusting auxiliary system arranged between the sliding rail and the sliding seat, sliding the sliding seat to move on the sliding rail, in the process, measuring the distance difference between one end of the sliding rail and one end of the sliding seat in real time by the magnetic grid displacement sensor and sending the data to a second processor, receiving the measurement data of the magnetic grid displacement sensor and the preset data sent by a second communication module by the second processor, comparing the measurement data with the preset data in real time and controlling a second LED indicator lamp according to the comparison result, controlling the second LED indicator lamp to be on red when the measurement data is larger than the preset data, controlling the second LED indicator lamp to be on yellow when the user slides to reduce the distance between one end of the sliding rail and one end of the sliding seat when the measurement data is smaller than the preset data, controlling the second LED indicator lamp to be on green when the user slides to increase the distance between one end of the sliding rail and one end of the sliding seat when the measurement data is equal, a user determines the relative position of one end of the sliding rail and one end of the sliding seat, and fixes the position of the sliding seat by using a fastening screw to complete the positioning of the sliding seat;

s4, installing the diagonal support members in sequence in the direction from the end, close to the side wall, of the sliding seat to the end, far away from the side wall, of the sliding seat, adjusting the length of the diagonal support members by rotating the internal threaded pipe and the external threaded pipe, tightly attaching the support blocks to the surface of the side wall, measuring the distance from the lower end of the lower plate of the cross support plate to the ground or the support blocks of the support members below in real time by the infrared distance meter to obtain the arrangement spacing data of the support members and sending the data to the processor, receiving the measurement data of the infrared distance meter and the preset data sent by the communication module by the processor, comparing the measurement data with the preset data in real time, controlling the LED indicator lamp to work according to the comparison result, comparing the measurement data with the preset data by the processor, controlling the LED indicator lamp to light red when the measurement data is greater than the preset data, controlling the LED indicator lamp to light yellow when the measurement, the operation is according to the red and yellow light instruction and carries out the position control about the supporting shoe, and the treater control LED pilot lamp is bright green and is accomplished the supporting shoe and select the position when measured data equals to predetermineeing data, utilizes the mounting hole on the bolt cooperation cross backup pad to be fixed in the supporting shoe on the side wall surface and accomplishes the installation.

As a possible implementation manner, further, the preset data in step S1 is data of arrangement spacing of each support member and data of a preset distance between one end of the slide rail and one end of the slide seat.

By adopting the technical scheme, the invention has the following beneficial effects:

1. the device can be installed at a position where light is dim and measurement operation is difficult by using the base capable of being adjusted in a displacement mode and the diagonal support piece matched with the auxiliary installation system and the auxiliary adjustment system, has strong applicability, and can be installed in an auxiliary mode in real time according to data provided by an external terminal of a designer.

2. The invention has the advantages of simple material, low manufacturing cost, adjustable structure and strong variation applicability to walls, can effectively reduce the manpower and material resources required to be input for formwork support construction, saves the construction cost and saves the construction period.

Drawings

The invention is described in further detail below with reference to the following figures and embodiments:

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

FIG. 2 is a schematic view of the junction of the support block and the internally threaded tube of the present invention;

FIG. 3 is a schematic view of the support block structure of the present invention;

FIG. 4 is a schematic illustration of an auxiliary mounting system of the present invention;

FIG. 5 is a schematic diagram of the regulatory assistance system of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described in detail and completely with reference to the accompanying drawings.

As shown in fig. 1-5, the invention provides an adjustable bracing device for a basement single-side wall formwork and a using method thereof.

In order to solve the technical problem, the adjustable inclined strut device for the basement single-side wall formwork is arranged between the ground 100 and the side wall 200 and used for supporting the side wall 200, and comprises a base 1 fixed on the ground through embedded bolts, a plurality of groups of telescopic inclined strut members 2 are arranged on the base 1, one ends of the inclined strut members 2 are rotatably connected with the base 1, the other ends of the inclined strut members are connected with the side wall 200 for supporting, one ends of the inclined strut members 2, which are rotatably connected with the base 1, are provided with limiting buckles 24 used for limiting reverse rotation displacement of the inclined strut members, and the limiting buckles 24 are fixedly connected with the base 1. The base 1 comprises a bottom plate slide rail 11 and a sliding seat 12 arranged on the bottom plate slide rail 11, the sliding seat 12 is fixedly connected with the bottom plate slide rail 11 in a sliding manner, and the sliding seat 12 can slide relative to the bottom plate slide rail 11. The inclined strut member 2 comprises a supporting block 21, an internal threaded pipe 22 and an external threaded pipe 23, one end of the external threaded pipe 23 is in threaded connection with the internal threaded pipe 22, the other end of the external threaded pipe is rotatably connected to the sliding seat 12 through a rotating shaft, a limiting buckle 24 is arranged at the connection position of the external threaded pipe 23 and the sliding seat 12, wing plates on two sides of the limiting buckle 24 are fixed on the sliding seat 12 through bolts, and a top plate of the limiting buckle 24 abuts against the pipe wall of the external threaded pipe 23 to limit the pipe; one end of the internal threaded pipe 22 is in threaded connection with the external threaded pipe 23, the other end of the internal threaded pipe is hinged with the supporting block 21, and a rotating bearing is arranged at the hinged position of the internal threaded pipe 22 and the supporting block 21 to prevent the internal threaded pipe 22 from driving the supporting block 21 to rotate when rotating. The supporting block 21 comprises a cross supporting plate 211, mounting holes 212 are formed in left and right side plates and an upper plate of the cross supporting plate 211, counterweight lead blocks 213 are symmetrically arranged at the lower end of the lower plate of the cross supporting plate 211, and an auxiliary mounting system is arranged on the cross supporting plate 211. The auxiliary installation system comprises an infrared distance meter, an LED indicator lamp, a processor and a communication module, wherein the infrared distance meter, the processor and the LED indicator lamp are sequentially connected, the communication module is used for transmitting received preset data sent by an external terminal to the processor, the infrared distance meter measures the distance between the lower end of the lower plate of the cross support plate and a support block below the lower end of the lower plate of the cross support plate in real time so as to obtain the arrangement interval data of the support pieces and send the data to the processor, and the processor receives the measured data of the infrared distance meter and the preset data sent by the communication module and controls the LED indicator lamp to work according to a comparison result after the measured data is compared with the preset data in real time. The processor compares the size of the measured data with that of the preset data, the processor controls the LED indicator lamp to light the red light when the measured data is larger than the preset data, the processor controls the LED indicator lamp to light the yellow light when the measured data is smaller than the preset data, and the processor controls the LED indicator lamp to light the green light when the measured data is equal to the preset data. Be provided with between slide rail 11 and the sliding seat 12 and adjust auxiliary system, it includes magnetic grid displacement sensor, second LED pilot lamp, second treater and second communication module to adjust auxiliary system, magnetic grid displacement sensor, second treater and second LED pilot lamp are connected in proper order, second communication module is used for the data transmission to the second treater of predetermineeing that sends received external terminal, the magnetic grid displacement sensor real-time measurement slide rail 11 distance difference between one end and the sliding seat 12 one end and with data transmission to second treater, the second treater accepts magnetic grid displacement sensor's measured data and the predetermined data that second communication module sent to with the measured data with predetermine the data real-time contrast back according to the work of contrast result control second LED pilot lamp. The second processor compares the size of the measured data with that of the preset data, the processor controls the second LED indicator lamp to light the red light when the measured data is larger than the preset data, the processor controls the second LED indicator lamp to light the yellow light when the measured data is smaller than the preset data, and the processor controls the second LED indicator lamp to light the green light when the measured data is equal to the preset data.

The foregoing is directed to embodiments of the present invention, and equivalents, modifications, substitutions and variations such as will occur to those skilled in the art, which fall within the scope and spirit of the appended claims.

Claims

1. The utility model provides an adjustable bracing device for basement unilateral wall form installs between ground and side wall for support the side wall, its characterized in that: it includes the base that is fixed in ground through pre-buried bolt, be equipped with multiunit telescopic diagonal brace piece on the base, diagonal brace piece one end is rotated with the base and is connected, and its other end is connected with the side wall and supports, diagonal brace piece and base rotate the one end of being connected and be equipped with the restriction buckle that is used for restricting its reverse rotation displacement, should restrict buckle and base fixed connection.

2. The adjustable bracing device for the basement single-side wall formwork according to claim 1, wherein: the base comprises a bottom plate slide rail and a slide seat arranged on the bottom plate slide rail, the slide seat and the bottom plate slide rail can be in fixed sliding connection, and the slide seat can slide relative to the bottom plate slide rail.

3. The adjustable bracing device for the basement single-side wall formwork according to claim 1, wherein: the inclined support piece comprises a support block, an internal threaded pipe and an external threaded pipe, one end of the external threaded pipe is in threaded connection with the internal threaded pipe, the other end of the external threaded pipe is rotatably connected to the sliding seat through a rotating shaft, a limiting buckle is arranged at the joint of the external threaded pipe and the sliding seat, wing plates on two sides of the limiting buckle are fixed on the sliding seat through bolts, and a top plate of the limiting buckle abuts against the pipe wall of the external threaded pipe to limit the external threaded pipe; one end of the internal threaded pipe is in threaded connection with the external threaded pipe, and the other end of the internal threaded pipe is hinged to the supporting block.

4. The adjustable bracing device for the basement single-side wall formwork according to claim 1, wherein: the supporting shoe includes the cross backup pad, seted up the mounting hole on curb plate and the upper plate about the cross backup pad, this cross backup pad hypoplastron lower extreme symmetry is equipped with the counter weight lead, be provided with supplementary mounting system in the cross backup pad.

5. The adjustable bracing device for the basement single-side wall formwork according to claim 4, wherein: the auxiliary installation system comprises an infrared distance meter, an LED indicator lamp, a processor and a communication module, wherein the infrared distance meter, the processor and the LED indicator lamp are sequentially connected, the communication module is used for transmitting received preset data sent by an external terminal to the processor, the infrared distance meter measures the distance between the lower end of the lower plate of the cross support plate and a support block below the lower end of the lower plate of the cross support plate in real time so as to obtain the arrangement interval data of the support pieces and send the data to the processor, and the processor receives the measured data of the infrared distance meter and the preset data sent by the communication module and controls the LED indicator lamp to work according to a comparison result after the measured data is compared with the preset data in real time.

6. The adjustable bracing device for the basement single-side wall formwork according to claim 5, wherein: the processor compares the size of the measured data with that of the preset data, the processor controls the LED indicator lamp to light the red light when the measured data is larger than the preset data, the processor controls the LED indicator lamp to light the yellow light when the measured data is smaller than the preset data, and the processor controls the LED indicator lamp to light the green light when the measured data is equal to the preset data.

7. The adjustable bracing device for the basement single-side wall formwork according to claim 2, wherein: be provided with between slide rail and the sliding seat and adjust auxiliary system, it includes magnetic grid displacement sensor, second LED pilot lamp, second treater and second communication module to adjust auxiliary system, magnetic grid displacement sensor, second treater and second LED pilot lamp are connected in proper order, second communication module is used for the data transmission to the second treater of predetermineeing that sends received external terminal, the distance difference between real-time measurement slide rail one end of magnetic grid displacement sensor and sliding seat one end and with data transmission to second treater, the second treater is accepted magnetic grid displacement sensor's measured data and the predetermined data that second communication module sent to with measured data and predetermined data real-time contrast back according to the work of contrast result control second LED pilot lamp.

8. The adjustable bracing device for the basement single-side wall formwork according to claim 7, wherein: the second processor compares the size of the measured data with that of the preset data, the processor controls the second LED indicator lamp to light the red light when the measured data is larger than the preset data, the processor controls the second LED indicator lamp to light the yellow light when the measured data is smaller than the preset data, and the processor controls the second LED indicator lamp to light the green light when the measured data is equal to the preset data.

9. The utility model provides a be used for adjustable bracing device application method of basement unilateral wall form, its characterized in that: the method comprises the following steps:

10. The use method of the adjustable inclined strut device for the basement single-side wall formwork according to claim 9, wherein the use method comprises the following steps: the preset data in the step S1 are data of the arrangement distance between the supporting members and data of the preset distance between one end of the slide rail and one end of the slide seat.