CN214426652U - Be applicable to stereoplasm and enclose fender deformation monitoring device - Google Patents

Abstract

The utility model discloses a deformation monitoring device suitable for a hard enclosure, which is characterized by comprising a foundation, an enclosure baffle plate connected above the foundation, an upper stand column and a lower stand column connected between the foundation and the enclosure baffle plate, an infrared detector connected at the joint of the upper stand column and the lower stand column, and an infrared receiver horizontally and upwards arranged corresponding to the infrared detector; the middle parts of the infrared detector and the infrared receiver are also connected with an early warning component. The utility model is beneficial to monitoring the deformation of the fence in real time and ensuring the handling in advance through the arrangement of the infrared detector and the infrared receiver, and is beneficial to mastering the vertical deformation deviation; through the arrangement of the side baffle, the emitted infrared rays are ensured not to be interfered in the transmission process, process interference is eliminated, and an installation foundation is provided for the infrared ray receiver; through the setting of early warning subassembly, can effectually guarantee to monitor the rail and in the deformation of level to, and for other directions except vertical deformation warp and provide the early warning.

Description

Be applicable to stereoplasm and enclose fender deformation monitoring device

Technical Field

The utility model belongs to the technical field of the construction, in particular to it encloses fender deformation monitoring devices to be applicable to the stereoplasm.

Background

In engineering construction, in order to guarantee the construction surrounding environment, a construction enclosure is often arranged. Most of the existing construction enclosure barriers are hard steel plates, and the height of the existing construction enclosure barriers is more than 1.8 meters. The enclosure is often deformed due to weather factors or accidental factors, and even the enclosure can topple over due to artificial collision or severe weather such as strong wind, so that the surrounding objects and people are dangerous. The setting is assembled to the fender that encloses in the long-pending, encloses horizontal and vertical deformation of fender for real-time supervision to prevent toppling over suddenly and make the early warning in advance, need provide one kind and enclose fender deformation monitoring's device.

SUMMERY OF THE UTILITY MODEL

The utility model provides a be applicable to the stereoplasm and enclose fender deformation monitoring devices for solve the stereoplasm and enclose deformation real-time supervision, restriction alarm and monitoring devices's that keep off technical problem such as installation.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a deformation monitoring device suitable for a hard enclosure is characterized by comprising a foundation, an enclosure baffle connected above the foundation, an upper stand column, a lower stand column, an infrared detector and an infrared receiver, wherein the upper stand column and the lower stand column are connected between the foundation and the enclosure baffle;

the infrared detector comprises a seat plate and a transmitting probe connected to the seat plate, and the seat plate is detachably connected to the bottom of the upper upright post;

the infrared receiver comprises a support plate and receiving probes correspondingly arranged on the support plate, the receiving probes are arranged corresponding to the transmitting probes and are vertically arranged at intervals, and early warning probes are arranged at the upper end and the lower end of the receiving probes;

and the middle parts of the infrared detector and the infrared receiver are also connected with an early warning assembly.

Further, a side baffle is connected, and the whole length of the side baffle is arranged outside the infrared passing path; the side baffle is connected to the outer side end of the cross rod, and the bottom of the side baffle is detachably connected with the cross rod through the plug-in.

Furthermore, the bottom of the side baffle is an inverted L-shaped piece, the vertical part is connected to the outer side of the cross rod, and the transverse part is connected to the top of the cross rod; the vertical part of the side baffle is detachably connected with the carrier plate.

Further, the early warning assembly comprises a circular hollow light perforating piece, a deviation belt connected to the periphery of the light perforating piece and an alarm belt connected to the periphery of the deviation belt.

Further, the light perforating piece is a pipe fitting, and the diameter of the light perforating piece is suitable for the infrared deviation angle.

Further, the deviation belt is an annular belt which is fully distributed with the light sensor and is connected with the remote controller.

Furthermore, the alarm belt is square outside and hollow inside, and an alarm sensor is arranged on the alarm belt and connected with a remote controller; one side of the alarm belt is detachably connected with the side baffle.

Furthermore, the upper upright post and the lower upright post are square posts, the length and the width of the upper upright post are smaller than those of the lower upright post, and the difference value of the widths is larger than the thickness of the side baffle plate.

Furthermore, a butt plate is connected with the outer side of the upper upright post and is connected with the seat plate through a connecting bolt.

Furthermore, the fence baffle is rectangular, the fence baffle is arranged in the horizontal direction of the fence at intervals, and elastic joint gaskets are arranged at the splicing seams.

The beneficial effects of the utility model are embodied in:

1) the utility model is beneficial to monitoring the deformation of the fence in real time and ensuring the advance response through the arrangement of the infrared detector and the infrared receiver, wherein, the two ends of the infrared receiver are provided with early warning probes in the vertical direction, which is beneficial to mastering the vertical deformation deviation;

2) the utility model ensures that the emitted infrared rays are not interfered in the transmission process and the process interference is eliminated through the arrangement of the side baffle; in addition, the side baffle is detachably connected with the cross rod, so that the installation and the removal are convenient, and an installation foundation is provided for the infrared receiver;

3) the utility model can effectively ensure the deformation of the monitoring fence in the horizontal direction through the arrangement of the early warning component, and provide early warning for the deformation in other directions except the vertical deformation;

the device of the utility model is simple and easy to obtain, easy to be arranged and implemented on site, and can automatically alarm through remote control, thus greatly saving labor and cost and further ensuring the safety of personnel and on-site articles; additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention; the primary objects and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description.

Drawings

FIG. 1 is a schematic mounting diagram of a deformation monitoring device for a hard enclosure;

FIG. 2 is a schematic view of a side dam and its attachment structure;

FIG. 3 is a partial schematic view of a side dam and its attachment structure;

FIG. 4 is a schematic view of a side dam bottom attachment configuration;

FIG. 5 is a schematic view of the connection of an infrared receiver to a side dam;

FIG. 6 is a schematic diagram of the distribution of the infrared detector and the early warning module;

fig. 7 is a schematic cross-sectional view of the early warning assembly.

Reference numerals: 1-foundation, 2-fence baffle, 3-upper upright, 4-lower upright, 5-cross bar, 6-infrared detector, 61-seat plate, 62-emission probe, 7-infrared receiver, 71-carrier plate, 72-receiving probe, 8-butt plate, 9-connecting bolt, 10-side baffle, 11-plug-in, 12-early warning component, 121-light perforating piece, 122-deviation band and 123-warning band.

Detailed Description

Taking a row of 50-meter-long hard enclosing barriers as an example, the limit displacement of the bottom in the vertical direction is 30mm, and the transverse displacement does not exceed 20 mm. And carrying out daily monitoring and early warning on the fence through the deformation monitoring device. Be applicable to the stereoplasm and enclose fender deformation monitoring devices, as shown in fig. 1 to 5, the stereoplasm is enclosed and is kept off deformation monitoring devices and contain basis 1, connect in the rail baffle 2 of basis 1 top, connect last stand 3 and lower stand 4 between basis 1 and rail baffle 2, connect in the infrared detector of last stand 3 and lower stand 4 junction and the infrared receiver that the level upwards corresponds the infrared detector setting.

The foundation 1 in this embodiment is a cast-in-place concrete foundation 1, and a pre-buried sleeve or a connecting steel plate on the foundation 1 is connected with the lower upright post 4. The upper upright post 3, the lower upright post 4 and the cross rod 5 are square steel pipe fittings, the upper upright post 3 and the lower upright post 4 are square posts, the length and the width of the upper upright post 3 are smaller than those of the lower upright post 4, and the difference value of the widths is larger than the thickness of the side baffle 10. The fence baffle 2 is a rectangular steel plate, the fence baffle 2 is arranged on the fence horizontally and upwards at intervals, and elastic joint gaskets are arranged at the splicing seams.

In this embodiment, the infrared detector 6 comprises a steel seat plate 61 and a transmitting probe 62 bolted to the seat plate 61, and the seat plate 61 is bolted to the bottom of the upper column 3 through a butt plate 8; the butt plate 8 is connected to the outside of the upper column 3 and is connected to the seat plate 61 by a connecting bolt 9.

In the application, enclose and keep off the baffle back and have vertical square steel stand and the basis 1 fixed every 1 meter, have horizontal through-length square steel and vertical square steel fixed, enclose fender both ends horizontal and vertical square steel cross point department, install infrared sensor and infrared receiver plate. Each has the position about vertical distance 30mm, and when the deflection reached 30mm, two photoelectric sensor were right up, utilized the singlechip with infrared signal's pulse to change infrared signal into the signal of telecommunication, reported to the police with transmission module with signal transmission to remote control center.

In this embodiment, the infrared receiver 7 includes a carrier 71 and a receiving probe 72 correspondingly disposed on the carrier 71, the receiving probe 72 is disposed corresponding to the transmitting probe 62 and vertically spaced apart from each other, and the early warning probes are disposed at the upper and lower ends; the middle parts of the infrared detector 6 and the infrared receiver 7 are also connected with an early warning assembly 12.

As shown in fig. 2 to 3, a side baffle 10 is further connected, and the side baffle 10 is disposed outside the infrared ray passing path; the side baffle 10 is connected with the outer side end of the cross rod 5, and the bottom of the side baffle 10 is detachably connected with the cross rod 5 through an insert 11. The insert 11 is a steel pin.

In this embodiment, the bottom of the side baffle 10 is an inverted L-shaped member, the vertical portion is connected to the outer side of the cross bar 5, and the horizontal portion is connected to the top of the cross bar 5; the vertical part of the side shield 10 is detachably connected with the carrier plate 71.

As shown in fig. 6 and 7, the early warning assembly 12 includes a circular hollow light-piercing member 121, a deviation band 122 attached to the outer circumference of the light-piercing member 121, and an alarm band 123 attached to the outer circumference of the deviation band 122.

In this embodiment, the light perforation member 121 is a tube and has a diameter suitable for the infrared deviation angle. The deviation band 122 is an endless band that is full of light sensors and is connected to a remote controller. The alarm belt 123 is square outside and hollow inside, and an alarm sensor is arranged on the alarm belt 123 and connected with a remote controller; the alarm band 123 is detachably connected to the side guard 10 at one side thereof.

The above description is only for the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be considered by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention.

Claims (10)

1. The deformation monitoring device suitable for the hard enclosure is characterized by comprising a foundation (1), an enclosure baffle (2) connected above the foundation (1), an upper upright (3) and a lower upright (4) connected between the foundation (1) and the enclosure baffle (2), an infrared detector connected at the joint of the upper upright (3) and the lower upright (4) and an infrared receiver horizontally arranged upwards corresponding to the infrared detector;

the infrared detector (6) comprises a seat plate (61) and a transmitting probe (62) connected to the seat plate (61), and the seat plate (61) is detachably connected to the bottom of the upper upright post (3);

the infrared receiver (7) comprises a carrier plate (71) and receiving probes (72) correspondingly arranged on the carrier plate (71), wherein the receiving probes (72) are arranged corresponding to the transmitting probes (62) at intervals in the vertical direction, and early warning probes are arranged at the upper end and the lower end;

and the middle parts of the infrared detector (6) and the infrared receiver (7) are also connected with an early warning assembly (12).

2. The deformation monitoring device for the hard enclosure is characterized in that a side baffle (10) is further connected, and the side baffle (10) is arranged outside the infrared ray passing path in length; the side baffle (10) is connected to the outer side end of the cross rod (5), and the bottom of the side baffle (10) is detachably connected with the cross rod (5) through an insert (11).

3. The deformation monitoring device for the hard enclosure is characterized in that the bottom of the side baffle (10) is an inverted L-shaped piece, the vertical part is connected to the outer side of the cross rod (5), and the transverse part is connected to the top of the cross rod (5); the vertical part of the side baffle (10) is detachably connected with the carrier plate (71).

4. A rigid surround deformation monitoring device according to claim 1 or 2, wherein the early warning assembly (12) comprises a round hollow light-perforated member (121), a deviation band (122) attached to the outer periphery of the light-perforated member (121), and an alarm band (123) attached to the outer periphery of the deviation band (122).

5. The device for monitoring deformation of a rigid enclosure according to claim 4, wherein said light-perforated member (121) is a tube and has a diameter sized to accommodate infrared deviation angles.

6. The deformation monitoring device for the rigid enclosure of claim 5, wherein the deviation strip (122) is an annular strip which is full of optical sensors and is connected to a remote controller.

7. The deformation monitoring device for the hard enclosure is characterized in that the alarm belt (123) is externally square and internally hollow, and an alarm sensor is arranged on the alarm belt (123) and is connected with a remote controller; one side of the alarm belt (123) is detachably connected with the side baffle (10).

8. The deformation monitoring device for the hard enclosure is characterized in that the upper upright column (3) and the lower upright column (4) are square columns, the length and the width of the upper upright column (3) are smaller than those of the lower upright column (4), and the difference of the widths is larger than the thickness of the side baffle (10).

9. The deformation monitoring device for the hard enclosure is characterized in that a butt plate (8) is further connected, and the butt plate (8) is connected to the outer side of the upper upright post (3) and connected with the seat plate (61) through a connecting bolt (9).

10. The deformation monitoring device for the hard enclosure is characterized in that the enclosure baffles (2) are rectangular, the enclosure baffles (2) are arranged at intervals in the horizontal direction of the enclosure, and elastic joint gaskets are arranged at splicing seams.

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