CN210664396U - Plate-type mounting structure of multi-probe displacement monitoring probe - Google Patents

Abstract

The utility model provides a many probes displacement monitoring probe plate-type mounting structure, include: the arc-shaped transparent window is slidably mounted between the left end cover and the right end cover, the left end cover and the right end cover are fixedly connected through the upper cross beam and the lower cross beam, the inner vertical plate is arranged between the upper cross beam and the lower cross beam, the transverse monitoring assembly and the longitudinal monitoring assembly are arranged on one side of the inner vertical plate, the monitoring controller is arranged on the other side of the inner vertical plate, the rear end of the upper cross beam and the rear end of the lower cross beam are provided with the rear cover, the inner vertical plate comprises an inner vertical plate body, an upper fixing lug is arranged on the upper side of the inner vertical plate body, a lower fixing lug is arranged on the lower side of the inner vertical plate body, the upper fixing lug and the lower fixing lug are mounted. The utility model discloses a switching that the arc transparent window can be convenient is guaranteeing under the sealed prerequisite of equipment, installation, adjustment that can be very convenient and change a plurality of displacement monitoring probe, and operating space is big, easily locking, and the reliability is higher.

Description

Plate-type mounting structure of multi-probe displacement monitoring probe

Technical Field

The utility model relates to an engineering construction monitoring facilities technical field specifically is a many probes displacement monitoring probe plate-type mounting structure.

Background

In recent years, various accidents caused by building safety are frequent, and building safety management faces a severe test. The party, the state and all levels of governments pay high attention to the innovation and development problem in the field. How to follow up the brand-new requirements of the development of the new era and how to better ensure the operation safety of railways, bridges, urban buildings, rail transit, urban comprehensive pipe galleries, hydraulic engineering, mines and the like, a great part of accident causes in the construction process of various buildings can be attributed to 'displacement': such as foundation pit settlement, building settlement, landslide, and the like. The existing solution is to manually use instruments such as a total station to perform field detection, the observation is not real-time, the interval between two measurements is one week or even more than one month, and great potential safety hazards are left. Secondly, the manual observation result is influenced by manual operation, and the accuracy and the reliability are greatly influenced by the professional quality of the operator. Finally, the existing observation methods require a large amount of human resources and are high in cost. During traditional measurement, the handheld prism rod is directly erected on a monitoring point, so that artificial measurement errors can be increased, and even foundation pit false alarm can be caused to influence engineering construction. The laser phase method distance measurement technology is a commonly used distance measurement technology at present, and various laser distance meters and sensors based on the principle are widely applied to length distance measurement and position change monitoring in the engineering measurement field. Due to the limitation of principle, when the laser ranging method is applied to displacement monitoring, the traditional laser ranging technology can only monitor the position change of a target measuring point in one dimension, the measured value is easily influenced by the rotation of the target or the change of the position or the angle of a monitoring base point, and whether the detected displacement change is caused by the real movement of the target or not cannot be accurately defined, so that the application of the laser ranging method in the displacement monitoring field is narrow.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide a many probes displacement monitoring probe plate-type mounting structure to solve the problem that proposes in the above-mentioned background art.

The utility model provides a technical problem adopt following technical scheme to realize: a multi-probe displacement monitoring probe plate mounting structure comprising: the arc-shaped transparent window is slidably mounted between the left end cover and the right end cover, the left end cover and the right end cover are fixedly connected through the upper cross beam and the lower cross beam, an inner vertical plate is arranged between the upper cross beam and the lower cross beam, one side of the inner vertical plate is provided with a transverse monitoring assembly and a longitudinal monitoring assembly, the other side of the inner vertical plate is provided with a monitoring controller, the rear ends of the upper cross beam and the lower cross beam are provided with a rear cover, the inner vertical plate comprises an inner vertical plate body, an upper fixing lug is arranged on the upper side of the inner vertical plate body, a lower fixing lug is arranged on the lower side of the inner vertical plate body, the upper fixing lug and the lower fixing lug are mounted on the left end cover and the right end cover through fixing bolts, a plurality of wire passing holes are.

Further, left end lid and right-hand member lid include the end cover body, the end cover body is the arc structure, this internal side window mounting groove that is equipped with of end cover, it has transparent side window board to inlay in the side window mounting groove, the side window mounting groove outside is equipped with arc transparent window mounting groove, arc transparent window mounting groove is the arc structure, and the girth of arc transparent window mounting groove is greater than the girth of arc transparent window, and arc transparent window slides and blocks and establish in arc transparent window mounting groove, both ends are equipped with the crossbeam fixing base about the end cover body, and the entablature is installed on the crossbeam fixing base of left end lid and right-hand.

Furthermore, the rear end of the end cover body is provided with a rear cover installation clamping plate, a reinforcing block is arranged between the rear cover installation clamping plate and the end cover body, and the rear cover is installed on the rear cover installation clamping plate through a fixing bolt.

Furthermore, the circumference of the arc-shaped transparent window mounting groove is 1.5-2 times of the circumference of the arc-shaped transparent window, and a reinforcing rib is arranged between the arc-shaped transparent window mounting groove and the end cover body.

Furthermore, a cross beam fixing screw hole is formed in the cross beam fixing seat, the upper cross beam is installed on the cross beam fixing seat through a fixing bolt, an inner vertical plate fixing lug is arranged on the cross beam fixing seat, and an inner vertical plate fixing hole is formed in the inner vertical plate fixing lug.

Furthermore, one side of the lower end of the end cover body is provided with a supporting part, the supporting part and the end cover body are of an integrally formed structure, and the lower end of the end cover body is provided with an equipment fixing hole.

Furthermore, the upper cross beam and the lower cross beam comprise cross beam plates, end cover connection screw holes are formed in two ends of each cross beam plate, and the left end cover and the right end cover are installed at two ends of each cross beam plate through fixing bolts.

Further, the crossbeam board upside is equipped with to collude, and crossbeam board downside is equipped with the riser mounting groove, and crossbeam board rear end is equipped with back lid mounting groove, is equipped with back lid installation screw on the back lid mounting groove.

Furthermore, a power interface is arranged on the left end cover or the right end cover, and a data interface and a control button are arranged on one side of the power interface.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a switching that the arc transparent window can be convenient is guaranteeing under the sealed prerequisite of equipment, installation, adjustment that can be very convenient and change a plurality of displacement monitoring probe, and operating space is big, easily locking, and the reliability is higher.

Drawings

Fig. 1 is an exploded view of the present invention.

Fig. 2 is a schematic view of the cross beam structure of the present invention.

Fig. 3 is a schematic structural view of the right end cover of the present invention.

Fig. 4 is a schematic view of the left end cap structure of the present invention.

Fig. 5 is a schematic structural view of the inner vertical plate of the present invention.

Fig. 6 is a perspective view of the present invention.

Detailed Description

In order to make the technical means, the creative features, the purpose and the efficacy of the present invention easily understood and appreciated, the present invention will be further explained with reference to the specific drawings, and in the description of the present invention, it should be noted that unless otherwise specified and limited, the terms "mounted", "connected" and "connected" should be understood broadly, for example, they may be fixed connection, detachable connection, or integrally connected, mechanically connected or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements.

Example 1

As shown in FIGS. 1-6, a plate-type mounting structure for a multi-probe displacement monitoring probe comprises: an arc transparent window 1, the arc transparent window 1 is slidably arranged between the left end cover 4 and the right end cover 3, the left end cover 4 and the right end cover 3 are fixedly connected through an upper cross beam 2 and a lower cross beam 8, an inner vertical plate 5 is arranged between the upper cross beam 2 and the lower cross beam 8, a transverse monitoring component 9 and a longitudinal monitoring component 10 are arranged on one side of the inner vertical plate 5, a monitoring controller 6 is arranged on the other side of the inner vertical plate 5, a rear cover 7 is arranged at the rear ends of the upper cross beam 2 and the lower cross beam 8, the inner vertical plate 5 comprises an inner vertical plate body 51, an upper fixing lug 52 is arranged on the upper side of the inner vertical plate body 51, a lower fixing lug 53 is arranged on the lower side of the inner vertical plate body 51, the upper fixing lug 52 and the lower fixing lug 53 are arranged on the left end cover 4 and the right end cover 3 through fixing bolts, the inner vertical plate body 51 is provided with a plurality of wire passing holes 54, and the inner vertical plate body 51 outside the wire passing holes 54 is provided with a plurality of fixing through holes 55.

The left end cover 4 and the right end cover 3 comprise end cover bodies 42, the end cover bodies 42 are of arc structures, side window mounting grooves 412 are formed in the end cover bodies 42, transparent side window plates 47 are embedded in the side window mounting grooves 412, arc transparent window mounting grooves 46 are formed in the outer sides of the side window mounting grooves 412, the arc transparent window mounting grooves 46 are of arc structures, the circumferences of the arc transparent window mounting grooves 46 are larger than the circumferences of the arc transparent windows 1, the arc transparent windows 1 are slidably clamped in the arc transparent window mounting grooves 46, beam fixing seats 44 are arranged at the upper end and the lower end of the end cover bodies 42, and the upper beam 2 is installed on the beam fixing seats 44 of the left end cover 4 and the.

The rear end of the end cover body 42 is provided with a rear cover mounting clamping plate 49, a reinforcing block 410 is arranged between the rear cover mounting clamping plate 49 and the end cover body 42, and the rear cover 7 is mounted on the rear cover mounting clamping plate 49 through a fixing bolt.

The circumference of the arc-shaped transparent window mounting groove 46 is 1.5-2 times of the circumference of the arc-shaped transparent window, and a reinforcing rib 48 is arranged between the arc-shaped transparent window mounting groove 46 and the end cover body 42.

The beam fixing seat 44 is provided with a beam fixing screw hole 43, the upper beam 2 is mounted on the beam fixing seat 44 through a fixing bolt, the beam fixing seat 44 is provided with an inner vertical plate fixing lug 45, and the inner vertical plate fixing lug 45 is provided with an inner vertical plate fixing hole.

One side of the lower end of the end cover body 42 is provided with a supporting part 411, the supporting part 411 and the end cover body 42 are of an integrated structure, and the lower end of the end cover body 42 is provided with an equipment fixing hole 41.

Example 2

As shown in FIGS. 1-6, a plate-type mounting structure for a multi-probe displacement monitoring probe comprises: an arc transparent window 1, the arc transparent window 1 is slidably arranged between the left end cover 4 and the right end cover 3, the left end cover 4 and the right end cover 3 are fixedly connected through an upper cross beam 2 and a lower cross beam 8, an inner vertical plate 5 is arranged between the upper cross beam 2 and the lower cross beam 8, a transverse monitoring component 9 and a longitudinal monitoring component 10 are arranged on one side of the inner vertical plate 5, a monitoring controller 6 is arranged on the other side of the inner vertical plate 5, a rear cover 7 is arranged at the rear ends of the upper cross beam 2 and the lower cross beam 8, the inner vertical plate 5 comprises an inner vertical plate body 51, an upper fixing lug 52 is arranged on the upper side of the inner vertical plate body 51, a lower fixing lug 53 is arranged on the lower side of the inner vertical plate body 51, the upper fixing lug 52 and the lower fixing lug 53 are arranged on the left end cover 4 and the right end cover 3 through fixing bolts, the inner vertical plate body 51 is provided with a plurality of wire passing holes 54, and the inner vertical plate body 51 outside the wire passing holes 54 is provided with a plurality of fixing through holes 55.

The upper cross beam 2 and the lower cross beam 8 comprise cross beam plates 21, end cover connecting screw holes 22 are formed in two ends of each cross beam plate 21, and the left end cover 4 and the right end cover 3 are installed at two ends of each cross beam plate 21 through fixing bolts.

21 upside of crossbeam board is equipped with to collude, and 21 downside of crossbeam board is equipped with riser mounting groove 23, and 21 rear ends of crossbeam board are equipped with back lid mounting groove, are equipped with back lid installation screw on the back lid mounting groove.

The left end cover 4 or the right end cover 3 is provided with a power interface 32, and one side of the power interface 32 is provided with a data interface 33 and a control button 31.

The utility model discloses a switching that the arc transparent window can be convenient, under the sealed prerequisite of assurance equipment, installation, adjustment and the change a plurality of displacement monitor that can be very convenient, operating space is big, easily locking, and the reliability is higher, simultaneously, can carry out angle modulation from top to bottom to a plurality of displacement monitor, and it is very convenient to use, can adapt to different engineering site needs moreover, realizes vertical installation or horizontal installation.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A multi-probe displacement monitoring probe plate mounting structure comprising: arc transparent window (1), its characterized in that: the arc-shaped transparent window (1) is slidably arranged between a left end cover (4) and a right end cover (3), the left end cover (4) and the right end cover (3) are fixedly connected through an upper beam (2) and a lower beam (8), an inner vertical plate (5) is arranged between the upper beam (2) and the lower beam (8), a transverse monitoring assembly (9) and a longitudinal monitoring assembly (10) are arranged on one side of the inner vertical plate (5), a monitoring controller (6) is arranged on the other side of the inner vertical plate (5), a rear cover (7) is arranged at the rear ends of the upper beam (2) and the lower beam (8), the inner vertical plate (5) comprises an inner vertical plate body (51), an upper fixing lug (52) is arranged on the upper side of the inner vertical plate body (51), a lower fixing lug (53) is arranged on the lower side of the inner vertical plate body (51), the upper fixing lug (52) and the lower fixing lug (53) are arranged on the left end cover (, the inner vertical plate body (51) is provided with a plurality of wire passing holes (54), and the inner vertical plate body (51) on the outer side of the wire passing holes (54) is provided with a plurality of fixing through holes (55).

2. The plate-type mounting structure for a multi-probe displacement monitoring probe according to claim 1, wherein: left end lid (4) and right-hand member lid (3) include end cover body (42), end cover body (42) are the arc structure, be equipped with side window mounting groove (412) in end cover body (42), it has transparent side window board (47) to inlay in side window mounting groove (412), the side window mounting groove (412) outside is equipped with arc transparent window mounting groove (46), arc transparent window mounting groove (46) are the arc structure, and the girth of arc transparent window mounting groove (46) is greater than the girth of arc transparent window (1), and arc transparent window (1) slip card is established in arc transparent window mounting groove (46), both ends are equipped with crossbeam fixing base (44) about end cover body (42), and install on crossbeam fixing base (44) of left end lid (4) and right-hand member lid (3) entablature (2).

3. The plate-type mounting structure for a multi-probe displacement monitoring probe according to claim 2, wherein: the rear cover structure is characterized in that a rear cover mounting clamping plate (49) is arranged at the rear end of the end cover body (42), a reinforcing block (410) is arranged between the rear cover mounting clamping plate (49) and the end cover body (42), and the rear cover (7) is mounted on the rear cover mounting clamping plate (49) through a fixing bolt.

4. The plate-type mounting structure for a multi-probe displacement monitoring probe according to claim 2, wherein: the circumference of the arc-shaped transparent window mounting groove (46) is 1.5-2 times of the circumference of the arc-shaped transparent window, and a reinforcing rib (48) is arranged between the arc-shaped transparent window mounting groove (46) and the end cover body (42).

5. A multi-probe displacement monitoring probe plate mounting structure according to any one of claims 2 to 4, wherein: the beam fixing seat (44) is provided with a beam fixing screw hole (43), the upper beam (2) is installed on the beam fixing seat (44) through a fixing bolt, an inner vertical plate fixing lug (45) is arranged on the beam fixing seat (44), and an inner vertical plate fixing hole is formed in the inner vertical plate fixing lug (45).

6. A multi-probe displacement monitoring probe plate mounting structure according to any one of claims 2 to 4, wherein: one side of the lower end of the end cover body (42) is provided with a supporting part (411), the supporting part (411) and the end cover body (42) are of an integrally formed structure, and the lower end of the end cover body (42) is provided with an equipment fixing hole (41).

7. A multi-probe displacement monitoring probe plate mounting structure according to claim 1 or 2, wherein: the upper cross beam (2) and the lower cross beam (8) comprise cross beam plates (21), end cover connecting screw holes (22) are formed in the two ends of each cross beam plate (21), and the left end cover (4) and the right end cover (3) are installed at the two ends of each cross beam plate (21) through fixing bolts.

8. The plate-type mounting structure for a multi-probe displacement monitoring probe according to claim 7, wherein: crossbeam board (21) upside is equipped with to collude, and crossbeam board (21) downside is equipped with riser mounting groove (23), and crossbeam board (21) rear end is equipped with back lid mounting groove, is equipped with back lid installation screw on the back lid mounting groove.

9. A multi-probe displacement monitoring probe plate mounting structure according to claim 1 or 2, wherein: the left end cover (4) or the right end cover (3) is provided with a power interface (32), and one side of the power interface (32) is provided with a data interface (33) and a control button (31).

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