CN215978825U - Fender is enclosed with monitoring formula to building engineering construction - Google Patents

Abstract

The utility model discloses a monitoring type enclosure for constructional engineering construction, and relates to the technical field of constructional engineering. The device comprises a baffle plate, wherein supporting plates are fixedly mounted on two sides of the baffle plate, first sliding grooves are formed in two ends of each supporting plate, connecting plates are mounted at two ends of each supporting plate, second sliding grooves are formed in the connecting plates, the first sliding grooves and the second sliding grooves are communicated, through holes are formed in the connecting plates and the supporting plates, the through holes are communicated, supporting mechanisms are mounted on the supporting plates, mounting plates are fixedly mounted at the bottoms of the supporting plates, fixing plates are fixedly mounted on the connecting plates, fixing holes are formed in the fixing plates, vertical plates are fixedly mounted on two sides of the top of the baffle plate, transverse plates are fixedly mounted between the vertical plates, and monitoring devices are fixedly mounted at the tops of the transverse plates; the supporting mechanism is arranged, so that the stability of the whole enclosure can be improved, the enclosure plate can not topple in severe weather, and potential safety hazards caused by toppling of the enclosure plate are avoided.

Description

Fender is enclosed with monitoring formula to building engineering construction

Technical Field

The utility model relates to the technical field of constructional engineering, in particular to a monitoring type enclosure for constructional engineering construction.

Background

The building engineering refers to an engineering entity formed by the construction of various house buildings and auxiliary facilities thereof and the installation activities of lines, pipelines and equipment matched with the house buildings, in the construction process of the building engineering, a surrounding barrier needs to be arranged on the outer side of a construction site, the construction site is surrounded, in the surrounding barrier arranged on the outer side of the construction site, monitoring type surrounding barriers are arranged at important intersections, such as the junction of the construction site and a normally-passing road, the entrance and the exit of the construction site and the like.

The fender that encloses that current building engineering construction was used is simple when installing, under the circumstances of bad weather, will enclose easily and blow down the fender, and the wind resistance is relatively poor, and when passerby was through enclosing the fender, it took place to empty the fender and can cause the injury of hard of imagination to passerby.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a monitoring type enclosure for building engineering construction, which can increase the overall stability of the enclosure and prevent the enclosure from toppling over in severe weather, thereby avoiding potential safety hazards caused by toppling over of the enclosure.

The purpose of the utility model can be realized by the following technical scheme:

the utility model provides a fender is enclosed with monitoring formula in building engineering construction, includes enclosure plate, the equal fixed mounting in enclosure plate both sides has the backup pad, first spout has all been seted up at the backup pad both ends, the connecting plate is all installed at the backup pad both ends, the second spout has all been seted up on the connecting plate, first spout and second spout homogeneous phase intercommunication, the through hole has all been seted up in connecting plate and the backup pad, through hole homogeneous phase intercommunication, all install supporting mechanism in the backup pad, the equal fixed mounting in backup pad bottom has the mounting panel, equal fixed mounting has the fixed plate on the connecting plate, the fixed orifices has all been seted up on the fixed plate, the equal fixed mounting in enclosure plate top both sides has the riser, fixed mounting has the diaphragm between the riser, diaphragm top fixed mounting has monitoring devices, monitoring devices matches there is protection mechanism.

As a further scheme of the utility model: the supporting mechanism comprises a bidirectional driving device, the bidirectional driving device is fixedly mounted at the top of the baffle plate, connecting shafts are fixedly connected to two ends of the bidirectional driving device, first bevel gears are fixedly mounted on the connecting shafts, the first bevel gears are meshed with second bevel gears, fixed shafts are fixedly mounted on the second bevel gears, the bottoms of the fixed shafts are rotatably connected to the mounting plate, and first threads are formed in the fixed shafts.

As a further scheme of the utility model: all be provided with the slide on the fixed axle, the slide all is on the fixed axle through first screw thread sliding connection, the equal fixed mounting in slide front end both sides has the erection column, all rotate on the erection column and be connected with the linkage board, the one end that the erection column was kept away from to the linkage board all rotates and is connected with the spliced pole, the spliced pole all runs through backup pad and connecting plate through the through hole.

As a further scheme of the utility model: equal fixed mounting has first linkage piece on the spliced pole, first linkage piece all with first spout and second spout sliding connection, equal fixed mounting has first cylinder on the first linkage piece, all rotate on the first cylinder and be connected with the bracing piece, the bracing piece is kept away from first cylindrical one end and is all rotated and be connected with the second cylinder, equal fixed mounting has second linkage piece on the second cylinder, the equal sliding connection of second linkage piece is in first spout.

As a further scheme of the utility model: protection machanism includes the knob, fixed mounting has the pivot on the knob, the pivot runs through the riser and rotates with the riser and be connected, the second screw thread has all been seted up to the pivot both sides, second screw thread opposite direction.

As a further scheme of the utility model: the improved structure is characterized in that moving blocks are arranged on two sides of the rotating shaft and are connected to the rotating shaft in a sliding mode through second threads, protecting shells are fixedly mounted at the bottoms of the moving blocks, and the protecting shells are connected to the transverse plate in a sliding mode.

The utility model has the beneficial effects that: when the device is used, the device is firstly installed on a designated position through a fixed hole on a fixed plate, then a bidirectional driving device is opened to drive connecting shafts on two sides to rotate, so that a first bevel gear on the connecting shafts rotates, the first bevel gear drives a fixed shaft on a second bevel gear to rotate on an installation plate through meshing connection with the second bevel gear, and as the sliding plate is connected on the fixed shaft through a first thread in a sliding manner, when the fixed shaft rotates, the sliding plate is driven to slide downwards, as the installation column is installed on the sliding plate, the linkage plate is connected on the installation column in a rotating manner, the linkage plate is connected with a connecting column in a rotating manner, and the connecting column penetrates through a supporting plate and the connecting plate through a through hole, when the sliding plate slides downwards, the linkage plate is driven to descend through the installed column, so that the connecting column on the installation column slides in the through hole, and as the first linkage block is installed on the connecting column, the first linkage block is connected with the first chute and the second chute in a sliding manner, so that when the connecting column slides in the through hole, the first linkage block is driven to slide into the second chute from the first chute, the first linkage block is provided with the first cylinder, the first cylinder is rotatably connected with the supporting rod, the supporting rod is rotatably connected with the second linkage block through the second cylinder, and the second linkage block is connected into the first chute in a sliding manner, so that when the first linkage block slides into the second chute from the first chute, the second linkage block is driven to slide downwards in the first chute through the arranged first cylinder, the supporting rod and the second cylinder, the supporting rod is moved to an inclined state from a vertical state, the periphery of the enclosure plate is supported, and the stability of the device is improved. Thereby avoiding potential safety hazards caused by the toppling of the baffle plate;

when the device does not need to be carried when using, the staff drives the pivot through rotating the knob, it rotates on the riser to drive the pivot, because the pivot both sides are provided with opposite second screw, the movable block passes through second screw sliding connection in the pivot, so when the pivot is rotatory, it is close to drive the movable block in the pivot mutual slip, because the protecting crust is installed to the movable block bottom, protecting crust sliding connection is on the diaphragm, so when the movable block slides and is close to, it is close to drive the protecting crust mutual slip on the diaphragm, thereby protect the detection device of diaphragm top installation, prevent at the in-process of transport, cause the damage to monitoring device.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

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

FIG. 2 is a schematic structural view of a support mechanism according to the present invention;

FIG. 3 is a schematic view of the protective mechanism of the present invention;

in the figure: 1. a surrounding baffle plate; 2. a support plate; 3. a first chute; 4. a connecting plate; 5. a second chute; 6. a support mechanism; 601. a bi-directional drive device; 602. a connecting shaft; 603. a first bevel gear; 604. a second bevel gear; 605. a fixed shaft; 606. a first thread; 607. a slide plate; 608. mounting a column; 609. a linkage plate; 610. connecting columns; 611. a first linkage block; 612. a first cylinder; 613. a support bar; 614. a second cylinder; 615. a second linkage block; 7. a vertical plate; 8. a transverse plate; 9. a protection mechanism; 901. a knob; 902. a rotating shaft; 903. a second thread; 904. a moving block; 905. a protective shell; 10. a monitoring device; 11. a fixing plate; 12. a fixing hole; 13. mounting a plate; 14. a through hole.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-2, a monitoring type enclosure for construction of building engineering comprises an enclosure plate 1, wherein supporting plates 2 are fixedly mounted on two sides of the enclosure plate 1, first sliding grooves 3 are formed in two ends of the supporting plates 2, connecting plates 4 are mounted at two ends of the supporting plates 2, second sliding grooves 5 are formed in the connecting plates 4, the first sliding grooves 3 are communicated with the second sliding grooves 5, through holes 14 are formed in the connecting plates 4 and the supporting plates 2, the through holes 14 are communicated with each other, supporting mechanisms 6 are mounted on the supporting plates 2, mounting plates 13 are fixedly mounted at the bottoms of the supporting plates 2, fixing plates 11 are fixedly mounted on the connecting plates 4, fixing holes 12 are formed in the fixing plates 11, vertical plates 7 are fixedly mounted on two sides of the top of the enclosure plate 1, a transverse plate 8 is fixedly mounted between the vertical plates 7, a monitoring device 10 is fixedly mounted at the top of the transverse plate 8, and the monitoring device 10 is matched with a protection mechanism 9;

the supporting mechanism 6 comprises a bidirectional driving device 601, the bidirectional driving device 601 is fixedly installed at the top of the enclosure baffle 1, two ends of the bidirectional driving device 601 are fixedly connected with connecting shafts 602, first bevel gears 603 are fixedly installed on the connecting shafts 602, second bevel gears 604 are engaged and connected with the first bevel gears 603, fixed shafts 605 are fixedly installed on the second bevel gears 604, the bottoms of the fixed shafts 605 are rotatably connected to the mounting plate 13, first threads 606 are formed on the fixed shafts 605, and when the bidirectional driving device 601 is opened to drive the connecting shafts 602 to rotate, the connecting shafts 602 are engaged and connected with each other through the first bevel gears 603 and the second bevel gears 604 to drive the fixed shafts 605 to rotate on the mounting plate 13;

the fixed shaft 605 is provided with sliding plates 607, the sliding plates 607 are slidably connected to the fixed shaft 605 through first threads 606, mounting columns 608 are fixedly mounted on two sides of the front end of each sliding plate 607, each mounting column 608 is rotatably connected with a linkage plate 609, one end, far away from the mounting column 608, of each linkage plate 609 is rotatably connected with a connecting column 610, each connecting column 610 penetrates through the support plate 2 and the connecting plate 4 through the through hole 14, when the fixed shaft 605 rotates, the sliding plates 607 are driven to slide downwards on the fixed shaft 605 through the arranged first threads 606, and the sliding plates 607 drive the connecting columns 610 to slide in the through holes 14 through the mounting columns 608 and the linkage plates 609;

all fixed mounting has first linkage block 611 on the spliced pole 610, first linkage block 611 all with first spout 3 and second spout 5 sliding connection, all fixed mounting has first cylinder 612 on first linkage block 611, all rotate on first cylinder 612 and be connected with bracing piece 613, the one end that first cylinder 612 is kept away from to bracing piece 613 all rotates and is connected with second cylinder 614, all fixed mounting has second linkage block 615 on second cylinder 614, second linkage block 615 all sliding connection is in first spout 3, spliced pole 610 slides in through-hole 14, drive first linkage block 611 from first spout 3 slip to in the second spout 5, first linkage block 611 slides in the time through the first cylinder 612 that sets up, bracing piece 613 and second cylinder 614 drive second linkage block 615 and slide downwards in first spout 3, make bracing piece 613 slope, thereby the stability of the device has been increased.

The working principle of the utility model is as follows: when the device is used, firstly, the device is installed on a designated position through a fixed hole 12 on a fixed plate 11, then a bidirectional driving device 601 is opened to drive connecting shafts 602 on two sides to rotate, so that a first bevel gear 603 on the connecting shafts 602 rotates, the first bevel gear 603 drives a fixed shaft 605 on a second bevel gear 604 to rotate on an installation plate 13 through meshing connection with the second bevel gear 604, as a sliding plate 607 is slidably connected on the fixed shaft 605 through a first thread 606, when the fixed shaft 605 rotates, the sliding plate 607 is driven to slide downwards, as the installation column 608 is installed on the sliding plate 607, a linkage plate 609 is rotatably connected on the installation column 608, the linkage plate 609 is rotatably connected with a connection column 610, the connection column 610 penetrates through a through hole 14 through a support plate 2 and a connection plate 4, when the sliding plate 607 slides downwards, the linkage plate 609 is driven to descend through the installation column 608, therefore, the connecting column 610 on the mounting column 608 slides in the through hole 14, since the connecting column 610 is provided with the first linkage block 611, and the first linkage block 611 is slidably connected with both the first sliding chute 3 and the second sliding chute 5, when the connecting column 610 slides in the through hole 14, the first linkage block 611 is driven to slide from the first sliding chute 3 to the second sliding chute 5, since the first cylinder 612 is mounted on the first linkage block 611, the support rod 613 is rotatably connected to the first cylinder 612, the support rod 613 is rotatably connected to the second linkage block 615 through the second cylinder 614, and the second linkage block 615 is slidably connected to the first sliding chute 3, when the first linkage block 611 slides from the first sliding chute 3 to the second sliding chute 5, the second linkage block 615 is driven to slide downwards in the first sliding chute 3 through the first cylinder 612, the support rod 613 and the second cylinder 614, so that the support rod 613 moves from a vertical state to an inclined state, the surrounding baffle 1 is supported around, so that the stability of the device is improved, the overall stability of the surrounding baffle can be improved through the supporting mechanism 6, the surrounding baffle 1 cannot topple in severe weather, and potential safety hazards caused by toppling of the surrounding baffle 1 are avoided.

As shown in fig. 3, the protection mechanism 9 includes a knob 901, a rotating shaft 902 is fixedly mounted on the knob 901, the rotating shaft 902 runs through a vertical plate 7 and is rotatably connected with the vertical plate 7, second threads 903 are all provided on two sides of the rotating shaft 902, the directions of the second threads 903 are opposite, moving blocks 904 are arranged on two sides of the rotating shaft 902, the moving blocks 904 are all slidably connected on the rotating shaft 902 through the second threads 903, a protection shell 905 is fixedly mounted at the bottom of each moving block 904, and the protection shells 905 are all slidably connected on a transverse plate 8.

The working principle is as follows: when the device need not be carried to when using, the staff is through rotating knob 901, drive pivot 902 and rotate on riser 7, because pivot 902 both sides are provided with opposite second screw 903, movable block 904 is through second screw 903 sliding connection on pivot 902, so when pivot 902 is rotatory, drive movable block 904 and slide each other on pivot 902 and be close to, because protective housing 905 is installed to movable block 904 bottom, protective housing 905 sliding connection is on diaphragm 8, so when movable block 904 slides and is close to, it is close to drive protective housing 905 slides each other on diaphragm 8, thereby protect the detection device of diaphragm 8 top installation, prevent in the in-process of transport, cause the damage to monitoring device 10.

The preferred embodiments of the utility model disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the utility model to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best utilize the utility model. The utility model is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The monitoring type enclosure for the building engineering construction is characterized by comprising an enclosure baffle plate (1), wherein supporting plates (2) are fixedly mounted on two sides of the enclosure baffle plate (1), first sliding grooves (3) are formed in two ends of each supporting plate (2), connecting plates (4) are mounted at two ends of each supporting plate (2), second sliding grooves (5) are formed in the connecting plates (4), the first sliding grooves (3) are communicated with the second sliding grooves (5), through holes (14) are formed in the connecting plates (4) and the supporting plates (2), the through holes (14) are communicated with each other, supporting mechanisms (6) are mounted on the supporting plates (2), mounting plates (13) are fixedly mounted at the bottoms of the supporting plates (2), fixing plates (11) are fixedly mounted on the connecting plates (4), and fixing holes (12) are formed in the fixing plates (11), enclose equal fixed mounting in baffle (1) top both sides has riser (7), fixed mounting has diaphragm (8) between riser (7), diaphragm (8) top fixed mounting has monitoring devices (10), monitoring devices (10) match there is protection machanism (9).

2. The monitoring type enclosure for building engineering construction according to claim 1, wherein the supporting mechanism (6) comprises a bidirectional driving device (601), the bidirectional driving device (601) is fixedly installed at the top of the enclosure plate (1), both ends of the bidirectional driving device (601) are fixedly connected with connecting shafts (602), first bevel gears (603) are fixedly installed on the connecting shafts (602), the first bevel gears (603) are respectively connected with second bevel gears (604) in a meshed manner, fixing shafts (605) are respectively fixedly installed on the second bevel gears (604), the bottoms of the fixing shafts (605) are respectively rotatably connected to the mounting plate (13), and first threads (606) are respectively formed on the fixing shafts (605).

3. The monitoring fence for the building engineering construction according to claim 2, characterized in that sliding plates (607) are arranged on the fixed shaft (605), the sliding plates (607) are slidably connected to the fixed shaft (605) through first threads (606), mounting columns (608) are fixedly mounted on both sides of the front end of each sliding plate (607), linkage plates (609) are rotatably connected to the mounting columns (608), one ends of the linkage plates (609) far away from the mounting columns (608) are rotatably connected to connecting columns (610), and the connecting columns (610) penetrate through the supporting plates (2) and the connecting plates (4) through holes (14).

4. The monitoring fence for the construction of the building engineering according to claim 3, characterized in that the connecting columns (610) are fixedly provided with first linkage blocks (611), the first linkage blocks (611) are slidably connected with a first sliding groove (3) and a second sliding groove (5), the first linkage blocks (611) are fixedly provided with first cylinders (612), the first cylinders (612) are rotatably connected with supporting rods (613), one ends of the supporting rods (613) far away from the first cylinders (612) are rotatably connected with second cylinders (614), the second cylinders (614) are fixedly provided with second linkage blocks (615), and the second linkage blocks (615) are slidably connected in the first sliding grooves (3).

5. The monitoring fence for the building engineering construction according to claim 1, characterized in that the protection mechanism (9) comprises a knob (901), a rotating shaft (902) is fixedly mounted on the knob (901), the rotating shaft (902) penetrates through a vertical plate (7) and is rotatably connected with the vertical plate (7), second threads (903) are respectively formed on two sides of the rotating shaft (902), and the directions of the second threads (903) are opposite.

6. The monitoring fence for the building engineering construction according to claim 5, wherein moving blocks (904) are arranged on both sides of the rotating shaft (902), the moving blocks (904) are slidably connected to the rotating shaft (902) through second threads (903), protective shells (905) are fixedly mounted at the bottoms of the moving blocks (904), and the protective shells (905) are slidably connected to the transverse plate (8).

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