CN220794313U - Collapse monitoring device for supporting high and large templates - Google Patents

Abstract

The utility model relates to the technical field of building construction, in particular to a collapse monitoring device for supporting a high and large formwork; including supporting base and auxiliary assembly, auxiliary assembly includes supporting footstock, wireless pressure sensor, wireless inclination sensor, displacement detection component and data processing component, when supporting, with supporting the base setting at ground, then, rotate the supporting footstock, until it jack-up the template, support, at this moment, wireless pressure sensor will contact with the template, when the template takes place to warp, wireless pressure sensor alright detect, simultaneously, wireless inclination sensor can support the inclination of base and supporting footstock cooperation bearing structure and detect, carry out template deformation detection through the inclination, and realize automated inspection, and then realize when carrying out the control of collapsing that high and big template supported, can realize automated inspection, improve the automated inspection ability, and can improve the accuracy nature of detection data.

Description

Collapse monitoring device for supporting high and large templates

Technical Field

The utility model relates to the technical field of building construction, in particular to a collapse monitoring device for supporting a high and large formwork.

Background

In building construction, the template monitoring system is mainly used for installing the staff on the tall and big template, then detecting the change of the height of the staff by using a level gauge or a theodolite to judge whether the tall and big template is deformed, however, the staff is arranged at the bottom of the density in the method, so that the deformation condition of the tall and big template cannot be monitored in a plurality of areas without staff arrangement, and when the heights of the staff at all positions are detected, the heavy level gauge or the theodolite needs to be moved frequently, and inconvenience is brought to monitoring.

Prior art CN218541547U discloses a formwork support monitoring device comprising: the bottom end of the sleeve is fixedly connected with four fixing rods distributed in a circumferential array, a supporting steel pipe is inserted into an upper port of the sleeve, a counter pulling mechanism is arranged between the fixing rods and the supporting steel pipe and comprises a first pull ring and a second pull ring, the first pull ring is fixedly connected with one end, far away from the sleeve, of the fixing rods, and the second pull ring is fixedly connected with the upper end of the outer wall of the supporting steel pipe; the utility model can monitor the later stage by observing the position of the sliding block, when the sliding block slides up to or passes over the first warning mark or when the sliding block slides down to or even passes over the second warning mark, the deformation of the tall and big template exceeds the warning value, and when the tall and big template is supported, a large number of devices are required to be arranged in high density, so that the deformation condition of each part of the tall and big template can be accurately monitored.

However, in the use process of the template support monitoring device, the position of the sliding block needs to be monitored manually, when the sliding block slides to or passes over the first warning mark or slides down to or even passes over the second warning mark, the deformation of the high template exceeds the warning value, so that the detection is performed, the automation degree is low, meanwhile, the detection data is read by naked eyes, the data accuracy is poor, and the detection data accuracy is seriously affected.

Disclosure of Invention

The purpose of the utility model is that: the collapse monitoring device for the high and large formwork support can realize automatic detection, improve the detection automation capability and improve the accuracy of detection data when the collapse of the high and large formwork support is monitored.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the utility model provides a collapse monitoring device for supporting a high and large formwork, which comprises a supporting base and an auxiliary assembly, wherein the supporting base is provided with a supporting base;

the auxiliary assembly comprises a supporting top seat, a wireless pressure sensor, a wireless inclination sensor, a displacement detection component and a data processing component, wherein the supporting top seat is rotationally connected with the supporting base and is positioned above the supporting base, the wireless pressure sensor is detachably connected with the supporting top seat and is positioned on the supporting top seat, the wireless inclination sensor is detachably connected with the supporting base and is positioned on one side of the supporting base, the displacement detection component is arranged on the supporting top seat and is close to one side of the supporting base, and the data processing component is arranged on one side of the supporting base.

The displacement detection component comprises a connecting plate and a matching part, wherein the connecting plate is detachably connected with the supporting top seat and is positioned at one side of the supporting top seat; the matching component is arranged on one side of the connecting plate, which is close to the supporting base.

The matching component comprises a steel wire stay rope and a steel wire displacement meter, wherein the steel wire stay rope is detachably connected with the connecting plate and is close to one side of the supporting base with the connecting plate; the steel wire displacement meter is detachably connected with the supporting base and detachably connected with the steel wire stay cord, and is positioned on one side, close to the steel wire stay cord, of the supporting base.

The data processing component comprises a collector and a wireless transmitter, wherein the collector is fixedly connected with the supporting base, is electrically connected with the steel wire displacement meter and is positioned on one side of the supporting base; the wireless transmitter is fixedly connected with the supporting base, is electrically connected with the collector and is positioned on one side of the supporting base.

The auxiliary assembly further comprises a first formwork inclinometry sensor and a second formwork inclinometry sensor, wherein the first formwork inclinometry sensor is fixedly connected with the supporting top seat, is electrically connected with the collector and is positioned on the supporting top seat; the second formwork inclinometry sensor is fixedly connected with the supporting top seat, is electrically connected with the collector and is positioned on the supporting top seat.

According to the collapse monitoring device for supporting the high and large templates, the supporting base is arranged on the ground when in use, the supporting top seat is rotationally connected with the supporting base, the wireless pressure sensor is arranged on one side of the supporting top seat, the wireless inclination sensor is arranged on one side of the supporting base, the displacement detection component is arranged on one side of the supporting top seat close to the supporting base, the data processing component is arranged on one side of the supporting base, the supporting base is arranged on the ground when in supporting, then the supporting top seat is rotated until the supporting top seat jacks up the templates for supporting, at the moment, the wireless pressure sensor is in contact with the templates, the wireless pressure sensor can detect when the templates deform, meanwhile, the wireless inclination sensor can detect the inclination of the supporting base and the supporting top seat matched with the supporting structure, the template deformation detection is carried out through the inclination, automatic detection is realized, automatic detection can be realized when the collapse monitoring of the high and large templates is carried out, and the detection automation capability can be improved, and the accuracy of detection data can be improved.

Drawings

The utility model may be further illustrated by means of non-limiting examples given in the accompanying drawings.

Fig. 1 is a schematic view showing the overall structure of a collapse monitoring apparatus for supporting a tall form according to a first embodiment of the present utility model.

Fig. 2 is a schematic structural view of a supporting top base according to a first embodiment of the present utility model.

Fig. 3 is a schematic view showing the overall structure of a collapse monitoring apparatus for supporting a tall form according to a second embodiment of the present utility model.

In the figure: 101-supporting base, 102-supporting top seat, 103-wireless pressure sensor, 104-wireless inclination sensor, 105-connecting plate, 106-wire stay cord, 107-wire displacement meter, 108-collector, 109-wireless transmitter, 201-first formwork inclination sensor, 202-second formwork inclination sensor.

Detailed Description

In order that those skilled in the art will better understand the present utility model, the following technical scheme of the present utility model will be further described with reference to the accompanying drawings and examples.

Embodiment one:

as shown in fig. 1 and 2, wherein fig. 1 is a schematic view of the overall structure of a collapse monitoring device for supporting a tall and large formwork, and fig. 2 is a schematic view of the structure of a supporting top base, the present utility model provides a collapse monitoring device for supporting a tall and large formwork: including supporting base 101 and auxiliary assembly, the auxiliary assembly includes supporting footstock 102, wireless pressure sensor 103, wireless inclination sensor 104, displacement detection component and data processing component, displacement detection component includes connecting plate 105 and cooperation part, cooperation part includes wire stay 106 and wire displacement meter 107, data processing component includes collector 108 and wireless transmitter 109. According to the scheme, when collapse monitoring of the high-large formwork support is performed, automatic detection can be achieved, the detection automation capacity is improved, the accuracy of detection data can be improved, and it can be understood that the scheme can achieve automatic detection, improve the detection automation capacity and improve the accuracy of detection data when collapse monitoring of the high-large formwork support is performed.

In the present embodiment, the support base 101 is installed on the ground when supported.

The wireless pressure sensor 103 is detachably connected with the supporting top seat 102 and is located on the supporting top seat 102, the wireless inclination sensor 104 is detachably connected with the supporting top seat 101 and is located on one side of the supporting top seat 101, the displacement detection member is arranged on one side of the supporting top seat 102 close to the supporting top seat 101, the data processing member is arranged on one side of the supporting top seat 101, the threaded end part of the supporting top seat 102 can be rotationally matched in a threaded cavity of the supporting top seat 101 to achieve lifting, the U-shaped end part of the top of the supporting top seat 102 is supported in a limiting butt mode, the wireless pressure sensor 103 is locked on the supporting top seat 102 through bolts, the wireless inclination sensor 104 is locked on the supporting top seat 101 through bolts, the displacement detection member is arranged on one side of the supporting top seat 102 close to the supporting top seat 101 and is used for carrying out displacement detection of the supporting top seat 101, and the displacement detection member of the supporting top seat 102 is arranged on one side of the supporting top seat 101 and is used for processing data.

Secondly, the connecting plate 105 is detachably connected with the supporting top seat 102 and is located on one side of the supporting top seat 102, the matching parts are arranged on one side of the connecting plate 105 close to the supporting base 101, the connecting plate 105 is mounted on the supporting top seat 102 through bolts and arranged at annular intervals, and the matching parts are arranged on one side of the connecting plate 105 close to the supporting base 101 and used for displacement detection matching.

Then, wire stay 106 with connecting plate 105 dismantles to be connected, and with connecting plate 105 is close to support base 101 one side, wire displacement meter 107 with support base 101 dismantles to be connected, and with wire stay 106 dismantles to be connected, and is located support base 101 is close to wire stay 106 one side, the fixed wire rope end of wire displacement meter 107 bottom is hung on the couple on support base 101, the end of wire stay 106 one side is hung on the couple of connecting plate 105, the opposite side is hung on the couple of wire displacement meter 107 top, the lower extreme probe of wire displacement meter 107 supports subaerial.

Finally, the collector 108 is fixedly connected with the support base 101 and is electrically connected with the wire displacement meter 107 and is located at one side of the support base 101, the wireless transmitter 109 is fixedly connected with the support base 101 and is electrically connected with the collector 108 and is located at one side of the support base 101, the collector 108 can adopt a collection module with the model of MZX-4AH and is fixed on the support base 101 through bolts and is used for data collection of the wire displacement meter 107, the wireless transmitter 109 can adopt a transmission module with the model of JMTX-2020, the wireless transmitter 109 utilizes a GPRS network to realize wireless connection of an upper computer and the collector 108, wireless data transceiver software is installed on the wireless transmitter 109 and provides identification codes for the upper computer, so that the wireless transmitter 109 installed on site automatically finds an external upper computer and establishes data connection between the two, thereby realizing data exchange, the collector 108 can be exchanged with the wireless transmitter 109 and the wireless transmitter 108, when the wireless transmitter 109 receives a command, the wireless transmitter 109 can realize data collection and wireless transmission of the data, and the wireless transmitter 109 can realize data collection after receiving the command.

When the utility model is used for carrying out collapse monitoring of high-size formwork support, automatic detection is realized, and when the accuracy of detection data can be improved, the support base 101 is arranged on the ground, then the support footstock 102 is rotated until the formwork is jacked up for support, then the connecting plate 105, the steel wire stay rope 106 and the steel wire displacement meter 107 are arranged, at this time, the wireless pressure sensor 103 is in contact with the formwork, when the formwork is deformed, the deformation detection of the formwork is carried out through pressure change, meanwhile, the wireless inclination sensor 104 can carry out the inclination detection of the support base 101 and the support footstock 102 matched with the support structure, the inclination amount can carry out the deformation detection of the formwork, the steel wire displacement meter 107 can carry out the relative displacement detection of the support base 101 and the support footstock 102 matched with the support, so as to carry out the deformation detection of the formwork, and finally, the data acquisition and the transmission are carried out through the collector 108 and the wireless transmitter 109, so that the automatic detection is realized, and the automatic detection of the automatic collapse is carried out, the automatic detection is carried out, the accuracy of the detection is realized, and the accuracy of the detection is improved.

Embodiment two:

as shown in fig. 3, wherein fig. 3 is a schematic view of the overall structure of the collapse monitoring device for tall and big formwork support, the present utility model provides a collapse monitoring device for tall and big formwork support, and the auxiliary assembly further comprises a first formwork inclination sensor 201 and a second formwork inclination sensor 202.

The first formwork inclinometry sensor 201 is fixedly connected with the supporting top seat 102, is electrically connected with the collector 108, and is located on the supporting top seat 102, the second formwork inclinometry sensor 202 is fixedly connected with the supporting top seat 102, is electrically connected with the collector 108, and is located on the supporting top seat 102, the first formwork inclinometry sensor 201 is fixed on the supporting top seat 102 through bolts and is symmetrically arranged, and the second formwork inclinometry sensor 202 is fixed on the supporting top seat 102 through bolts and is symmetrically arranged.

In this embodiment, by providing the first formwork inclination measuring sensor 201 and the second formwork inclination measuring sensor 202, inclination data of the supporting top seat 102 can be detected, and template deformation determination can be performed, so that accuracy of detection data is further improved.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims of this utility model, which are within the skill of those skilled in the art, can be made without departing from the spirit and scope of the utility model disclosed herein.

Claims (5)

1. The collapse monitoring device for supporting the tall templates comprises a supporting base and is characterized in that,

also comprises an auxiliary component;

the auxiliary assembly comprises a supporting top seat, a wireless pressure sensor, a wireless inclination sensor, a displacement detection component and a data processing component, wherein the supporting top seat is rotationally connected with the supporting base and is positioned above the supporting base, the wireless pressure sensor is detachably connected with the supporting top seat and is positioned on the supporting top seat, the wireless inclination sensor is detachably connected with the supporting base and is positioned on one side of the supporting base, the displacement detection component is arranged on the supporting top seat and is close to one side of the supporting base, and the data processing component is arranged on one side of the supporting base.

2. The collapse monitoring device for tall form supports as defined in claim 1,

the displacement detection component comprises a connecting plate and a matching part, wherein the connecting plate is detachably connected with the supporting top seat and is positioned at one side of the supporting top seat; the matching component is arranged on one side of the connecting plate, which is close to the supporting base.

3. The collapse monitoring device for tall form supports as defined in claim 2,

the matching component comprises a steel wire stay cord and a steel wire displacement meter, wherein the steel wire stay cord is detachably connected with the connecting plate and is close to one side of the supporting base with the connecting plate; the steel wire displacement meter is detachably connected with the supporting base and detachably connected with the steel wire stay cord, and is positioned on one side, close to the steel wire stay cord, of the supporting base.

4. A collapse monitoring device for tall form supports as described in claim 3, wherein,

the data processing component comprises a collector and a wireless transmitter, wherein the collector is fixedly connected with the supporting base, is electrically connected with the steel wire displacement meter and is positioned at one side of the supporting base; the wireless transmitter is fixedly connected with the supporting base, is electrically connected with the collector and is positioned on one side of the supporting base.

5. The collapse monitoring device for tall form supports as defined in claim 4, wherein,

the auxiliary assembly further comprises a first formwork inclinometry sensor and a second formwork inclinometry sensor, wherein the first formwork inclinometry sensor is fixedly connected with the supporting top seat, is electrically connected with the collector and is positioned on the supporting top seat; the second formwork inclinometry sensor is fixedly connected with the supporting top seat, is electrically connected with the collector and is positioned on the supporting top seat.