CN219198793U - Dedicated safety monitoring facility of job site equipment - Google Patents

Abstract

The utility model belongs to the technical field of monitoring facility structures, and particularly relates to a safety monitoring facility special for construction field equipment. The utility model is provided with the rear vertical pipe, the front lower vertical pipe, the front upper vertical pipe, the transverse connecting pipe, the mounting plate, the motor for left and right swing, the motor for up and down swing and the camera, so that the utility model has the following advantages that: 1. the safety monitoring facility can provide a sufficient anti-collision protection effect for the camera, and the camera is not easy to be damaged by the construction equipment in the moving process and the materials in the suspension; 2. the whole anti-collision protection structure has small influence on the monitoring effect of the left-right and up-down swing of the camera; 3. the safety monitoring facility can effectively monitor and protect common large-scale equipment for a long time at a relatively high position.

Description

Dedicated safety monitoring facility of job site equipment

Technical Field

The utility model belongs to the technical field of monitoring facility structures, and particularly relates to a safety monitoring facility special for construction field equipment.

Background

In the construction site, no matter the personal safety of operators or the normal operation of construction equipment, monitoring equipment can be used for observing records in real time, so that measures can be taken immediately when dangerous situations occur.

On the other hand, when monitoring equipment is used at a construction site, the problem of collision avoidance is particularly required, because the construction equipment which moves and runs in the high air on site is also various suspended building materials. Therefore, the monitoring device cannot be directly exposed and installed, and a mounting frame body with proper protection degree is needed, namely the monitoring device and the mounting frame body are integrated, and the monitoring device is suitable for a safety monitoring facility of a construction site.

The patent publication No. CN216952509U, the Chinese patent publication day 2022.07.12 discloses a building engineering construction equipment supervisory equipment, including the diaphragm, the right side fixed mounting at diaphragm top has first servo motor, the positive lower extreme of casing inlays and is equipped with toughened glass, the middle-end fixed mounting of casing bottom has driving motor, driving motor's output fixedly connected with first bull stick, the outside of first bull stick is all fixedly connected with second fixed plate, the upper end of second fixed plate inboard all is provided with the wipe, and the inboard of wipe contacts with the surface of casing, the middle-end fixed mounting at casing inner chamber top has second servo motor.

The general operation principle of the monitoring equipment in the patent of the utility model is as follows: the mounting hole is fixed first fixed plate in appointed region, opens first servo motor work through external controller, and first servo motor drives the casing and rotates the regulation, and the casing passes through the connecting rod and drives the carousel rotation, and the carousel rotates in the inboard of fixed block, stabilizes the rotation of casing, has realized monitoring camera and has rotated the regulation.

Moreover, the monitoring equipment also makes targeted improvements in terms of collision avoidance, namely: toughened glass is arranged in front of the camera, and various motors are also arranged in the corresponding protective shells.

However, the monitoring equipment has the greatest defect in the actual use process, namely the technical problem to be solved by the utility model is that:

the anti-collision measures can only prevent the sand and stone from flying, for example, the anti-collision measures can completely fail when facing a bundle of steel pipes which are impacted by accident, and the whole monitoring equipment can be completely knocked down.

Therefore, in view of the foregoing, there is an urgent need for a novel monitoring facility with a large-scale anti-collision function, so as to be used in a construction site where various building materials are frequently suspended in high altitudes, and ensure that the safety monitoring facility can be effectively used for monitoring the stable operation of construction site equipment for a long time.

Disclosure of Invention

The utility model provides a special safety monitoring facility for construction field equipment, which can be provided with a rear vertical pipe, a front lower vertical pipe, a front upper vertical pipe, a transverse connecting pipe, a mounting plate, a motor for horizontal swing, a motor for vertical swing and a camera in a way that: 1. the safety monitoring facility can provide a sufficient anti-collision protection effect for the camera, and the camera is not easy to be damaged by the construction equipment in the moving process and the materials in the suspension; 2. the whole anti-collision protection structure has small influence on the monitoring effect of the left-right and up-down swing of the camera; 3. the safety monitoring facility can effectively monitor and protect common large-scale equipment for a long time at a relatively high position.

The utility model adopts the technical proposal that: the utility model provides a dedicated safety monitoring facility of job site equipment, structure includes the mounting panel, and motor for the horizontal hunting, motor for the vertical hunting to and be used for monitoring construction equipment's camera, still include the bottom plate, set up on the bottom plate upper surface and be used for fixing the rear standpipe of mounting panel, set up the place ahead lower standpipe on the bottom plate upper surface, set up the place ahead upper standpipe of place ahead lower standpipe top position department, and set up the lateral connection pipe on rear standpipe or place ahead lower standpipe or the place ahead upper standpipe, the camera sets up between place ahead lower standpipe and the place ahead upper standpipe.

The further preferable technical scheme is as follows: the number of the rear vertical pipes, the front lower vertical pipes and the front upper vertical pipes is 2, and the projection of the camera on the bottom plate is positioned in a rectangular area surrounded by the 2 rear vertical pipes and the 2 front lower vertical pipes.

The further preferable technical scheme is as follows: the two ends of the mounting plate are respectively arranged on 2 rear vertical pipes and used for fixing the inner arc-shaped plates of the mounting plate.

The further preferable technical scheme is as follows: the protective top plate is arranged on the upper end face of the 2 rear vertical pipes and the upper end face of the 2 front upper vertical pipes.

The further preferable technical scheme is as follows: the distance between the camera and the upper surface of the bottom plate is 2-30m.

The further preferable technical scheme is as follows: the rear vertical pipe and the front lower vertical pipe are also provided with universal wheel frame units, and the bottom plate is also provided with holes for extending downwards out of the universal wheel frame units.

The further preferable technical scheme is as follows: the universal wheel frame body unit comprises a rectangular frame body arranged on the rear vertical pipe and the front lower vertical pipe, and a universal wheel main body arranged on the rectangular frame body and positioned above the open hole.

The further preferable technical scheme is as follows: the universal wheel carrier body unit further comprises a transverse through hole arranged on the rectangular frame body and an inserting rod arranged on the transverse through hole, and mounting holes for inserting the inserting rod are formed in the rear vertical pipe and the front lower vertical pipe.

The further preferable technical scheme is as follows: and 2 mounting holes are formed in each of the rear vertical pipe and the front lower vertical pipe.

The further preferable technical scheme is as follows: the number of the universal wheel main bodies is 4.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic diagram of a position of a camera in the prior art.

Fig. 3 is a schematic view of the position of the universal wheel carrier unit according to the present utility model in a top view.

Fig. 4 is a schematic diagram showing the position of the transverse connection pipe in the present utility model in a top view.

Fig. 5 is a schematic structural view of the universal wheel carrier unit according to the present utility model in a top view.

FIG. 6 is a schematic view of the position and shape of the openings in the present utility model.

In the drawings, the meanings indicated by the respective reference numerals are as follows:

mounting plate 11, motor 12 for horizontal swing, motor 13 for vertical swing, camera 14, bottom plate 1, rear vertical pipe 2, front lower vertical pipe 3, front upper vertical pipe 4, transverse connection pipe 5, inner arc 6, protective top plate 7, universal wheel frame unit 8, opening 9, rectangular frame 801, universal wheel main body 802, transverse through hole 803, insert rod 804, and mounting hole 10.

Detailed Description

The following description is of the preferred embodiments of the utility model and is not intended to limit the scope of the utility model.

As shown in fig. 1-6, a safety monitoring facility special for construction site equipment structurally comprises a mounting plate 11, a motor 12 for horizontal swing, a motor 13 for vertical swing, a camera 14 for monitoring construction equipment, a bottom plate 1, a rear vertical pipe 2 arranged on the upper surface of the bottom plate 1 and used for fixing the mounting plate 11, a front lower vertical pipe 3 arranged on the upper surface of the bottom plate 1, a front upper vertical pipe 4 arranged at a position above the front lower vertical pipe 3, and a transverse connecting pipe 5 arranged on the rear vertical pipe 2, the front lower vertical pipe 3 or the front upper vertical pipe 4, wherein the camera 14 is arranged between the front lower vertical pipe 3 and the front upper vertical pipe 4.

According to the mode of the prior art, the mounting plate 11, the motor 12 for horizontal swinging, the motor 13 for vertical swinging and the camera 14 form the core component of the existing common monitoring facility, wherein the camera 14 is matched with a power supply line and networking equipment, so that the basic remote real-time monitoring effect is ensured.

In addition, the bottom plate 1, the rear vertical pipe 2, the front lower vertical pipe 3, the front upper vertical pipe 4 and the transverse connecting pipe 5 in the present embodiment form a protection structure of the core component, so that the core component can obtain a sufficient anti-collision protection effect.

In other words, it is almost impossible that the material being moved, equipment being swung, etc., will hit the camera 14 only with an approximately complete level of access between said lower front riser pipe 3 and upper front riser pipe 4.

The number of the rear vertical pipes 2, the front lower vertical pipes 3 and the front upper vertical pipes 4 is 2, and the projection of the camera 14 on the bottom plate 1 is positioned in a rectangular area surrounded by the rear vertical pipes 2 and 2 front lower vertical pipes 3.

In this embodiment, the main materials of the protection structure are all round tubes, which is quite common in construction sites, and the convenience of assembling the safety monitoring facility is also ensured.

In addition, the front lower vertical tube 3 and the front upper vertical tube 4 are basically the same round tube with a middle cut-off part, and the cut-off part is a left-right swing and up-down swing space of the camera 14. In other words, the transverse connection 5 obliquely above the front of the camera 14 cannot be too low, and the transverse connection 5 obliquely below the front cannot be too high.

Finally, the number of the transverse connecting pipes 5 is 4, the whole protection structure is cuboid, and the camera 14 is arranged in the cuboid frame.

The two ends of the mounting plate 11 are respectively arranged on the 2 rear vertical pipes 2 and used for fixing the inner side arc-shaped plates 6 of the mounting plate 11.

In this embodiment, both ends of the inner arc plate 6 are welded, and one end of the mounting plate 11 is welded or fastened to the inner arc plate 6, so as to finally ensure that the above-mentioned core component for monitoring is stably mounted.

The device also comprises a protective top plate 7 arranged on the upper end face of the 2 rear vertical pipes 2 and the upper end face of the 2 front upper vertical pipes 4.

In this embodiment, the rear standpipe 2, the front lower standpipe 3 and the front upper standpipe 4 are mainly used for blocking and protecting a moving object from being impacted transversely, and the protecting top plate 7 is used for blocking a vertical falling object, so that the protecting effect on the core component is more comprehensive.

In addition, the protective roof 7 can also reinforce the rear riser 2 and the front upper riser 4, so that the structural integrity and stability of the entire protective frame are higher.

The distance between the camera 14 and the upper surface of the base plate 1 is 2-30m.

In this embodiment, the camera 14 is dedicated to safety monitoring of various devices on a construction site, and the devices such as a hoist, a grouting machine, a freight elevator, etc. have a large height, so that the installation height of 2-30m can ensure a relatively sufficient and suitable safety monitoring effect.

At this time, the protection structure of the safety monitoring facility is set to have its own vertical length of, for example, 32m, and when the corresponding equipment is high, the front lower standpipe 3 is long, the front upper standpipe 4 is short, and the inner arc 6 is located relatively high.

Otherwise, the lower front vertical tube 3 is shorter, and the upper front vertical tube 4 is longer, so that the height of the camera 14 is ensured and corresponds to the height of the equipment main body to be monitored.

The rear vertical pipe 2 and the front lower vertical pipe 3 are also provided with universal wheel frame units 8, and the bottom plate 1 is also provided with holes 9 which are used for extending downwards out of the universal wheel frame units 8.

In this embodiment, the protection structure has relatively large weight of 3m, 10m or 30m, and the safety monitoring device needs to be carried for several times while being stably placed, after all, the equipment such as the elevator, the grouting machine and the like can be replaced at the most suitable installation position according to the progress of the construction project.

The safety monitoring facility is therefore mobile and relatively heavy to handle directly, so that the gimbal body unit 8 is provided.

The using method of the universal wheel carrier body unit 8 comprises the following steps:

when the first facility is fixedly placed, the universal wheel frame body unit 8 is positioned at a relatively high position on the facility, and at the moment, whether the universal wheel frame body unit 8 is fixed with the rear vertical pipe 2 and the front lower vertical pipe 3 or not can be judged;

secondly, when the facility needs to be carried in a rolling way, the bottom plate 1 is lifted manually or by means of a crane for a short time, the universal wheel frame body unit 8 extends downwards at the position of the opening 9, meanwhile, the universal wheel frame body unit 8 is fixed on the rear vertical pipe 2 and the front lower vertical pipe 3 to be relatively fixed, at the moment, the manual lifting action or the crane can be removed, and the whole facility can be pushed to roll forwards;

thirdly, similar to the second phase, when the facility moves to the required position, the bottom plate 1 is supported manually or by means of a crane in a short time, the universal wheel carrier unit 8 is fixedly installed, the bottom plate 1 is lowered, and the rolling and conveying operation of the whole facility is finished.

During this time, the crane is not required to hold and carry the frame, and this is the function of the universal wheel carrier unit 8. Of course, the rear vertical tube 2, the front lower vertical tube 3, the front upper vertical tube 4, the transverse connecting tube 5, etc. are all the thinnest and lightest tubes as possible on the premise of being sufficient, so as to reduce the working strength of the universal wheel carrier unit 8.

The universal wheel carrier unit 8 comprises a rectangular frame 801 arranged on the rear vertical pipe 2 and the front lower vertical pipe 3, and a universal wheel main body 802 arranged on the rectangular frame 801 and positioned above the opening 9.

In this embodiment, when the gimbal body unit 8 is idle, the gimbal body 802 is partially located in the opening 9, so that unnecessary rotation of the rectangular frame 801 can be avoided, and when the gimbal body unit 8 is in use, the gimbal body 802 protrudes downward relatively greatly on the lower surface of the base plate 1 through the opening 9.

The universal wheel carrier unit 8 further comprises a transverse through hole 803 formed in the rectangular frame 801, and a plug rod 804 arranged on the transverse through hole 803, and the rear vertical pipe 2 and the front lower vertical pipe 3 are respectively provided with a mounting hole 10 for inserting the plug rod 804.

In this embodiment, the rectangular frame 801 is welded from 4 steel pipes, and the downward protruding state of the caster body 802 is fixed after the insert rod 804 enters the mounting hole 10.

In other words, the insert 804 needs a large structural strength for supporting the weight of the body of the safety monitoring device that is separated from the ground, and is made of high-strength steel.

And 2 mounting holes 10 are formed in each of the rear vertical pipe 2 and the front lower vertical pipe 3.

In this embodiment, the lower 4 mounting holes 10 correspond to the rolling operation state, and the upper 4 mounting holes 10 correspond to the high idle state, the former is as low as possible, and the latter is as high as possible.

The insert rod 804, when inserted into the latter 4 mounting holes 10, at least ensures that the castor body 802 does not hit the ground. In addition, the latter 4 mounting holes 10 may be omitted, and the caster body 802 may be placed directly on the ground.

The number of the caster bodies 802 is 4.

In this embodiment, the materials of the universal wheel body 802 are also steel, so as to ensure sufficient supporting strength, and 4 universal wheel bodies 802 correspond to 4 openings 9.

In addition, the structure and principles of the caster body 802, all referring to the current common office chair casters, are merely materials and dimensions that are changed.

Finally, the advantages of the safety monitoring device of the present embodiment are summarized as follows.

First, mounting panel 11, motor 12 for the horizontal hunting, motor 13 for the vertical hunting add camera 14, guarantee that basic, core's long-range real-time supervision function is realized.

Second, rear standpipe 2, place ahead lower standpipe 3, place ahead upper standpipe 4, transverse connection pipe 5, protection roof 7 constitute a protection effect and are relatively comprehensive external frame structure, guarantee equipment and the material in moving, be difficult for striking camera 14.

And thirdly, the front lower vertical pipe 3 and the front upper vertical pipe 4 are disconnected, and the transverse connecting pipes 5 on the upper side and the lower side in front of the camera 14 are also properly far away, so that the camera 14 is ensured to have a full and non-shielding pitching angle and a left-right swinging angle.

Fourth, the actual effective length of the jacking can be adjusted by the adjusting ring 8 and the supporting ring 2, and the rotation adjusting operation of the adjusting ring and the supporting ring is very convenient.

Fifth, the camera 14 is stably mounted in the protective frame by means of the mounting plate 11 and the inner arc plate 6.

Sixth, the weight of the whole safety monitoring facility is relatively large, so that the universal wheel carrier unit 8 is provided, so that the universal wheel carrier unit has a rolling function, and the trouble and laborious defects of direct transportation are avoided.

Seventh, after the universal wheel carrier unit 8 is opened downward, the vertical fixing strength is enough to support the main body weight of the safety monitoring facility.

Eighth, the operation of opening the universal wheel carrier unit 8 downward and the operation of retracting the universal wheel carrier unit upward are relatively simple and convenient.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various modifications may be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model. These are all non-inventive modifications which are intended to be protected by the patent laws within the scope of the appended claims.

Claims (10)

1. Dedicated safety monitoring facility of job site equipment, structure include mounting panel (11), motor (12) for the horizontal hunting, motor (13) for the vertical hunting to and be used for monitoring construction equipment's camera (14), its characterized in that: still include bottom plate (1), set up on bottom plate (1) upper surface and be used for fixing rear standpipe (2) of mounting panel (11), set up place ahead lower standpipe (3) on bottom plate (1) upper surface, set up place ahead upper standpipe (4) of place over place under standpipe (3), and set up transverse connection pipe (5) on rear standpipe (2) or place ahead lower standpipe (3) or place ahead upper standpipe (4), camera (14) set up between place ahead lower standpipe (3) and place ahead upper standpipe (4).

2. A safety monitoring facility dedicated to construction site equipment as claimed in claim 1, wherein: the number of the rear vertical pipes (2), the front lower vertical pipes (3) and the front upper vertical pipes (4) is 2, and the projection of the camera (14) on the bottom plate (1) is positioned in a rectangular area surrounded by the rear vertical pipes (2) and the front lower vertical pipes (3).

3. A safety monitoring facility dedicated to construction site equipment as claimed in claim 1, wherein: the two ends of the mounting plate are respectively arranged on the 2 rear vertical pipes (2) and used for fixing the inner side arc plates (6) of the mounting plate (11).

4. A safety monitoring facility dedicated to construction site equipment as claimed in claim 1, wherein: the device also comprises protection top plates (7) arranged on the upper end surfaces of the 2 rear vertical pipes (2) and the upper end surfaces of the 2 front upper vertical pipes (4).

5. A safety monitoring facility dedicated to construction site equipment as claimed in claim 1, wherein: the distance between the camera (14) and the upper surface of the bottom plate (1) is 2-30m.

6. A safety monitoring facility dedicated to construction site equipment as claimed in claim 1, wherein: the rear vertical pipe (2) and the front lower vertical pipe (3) are also provided with a universal wheel frame body unit (8), and the bottom plate (1) is also provided with an opening (9) which is used for extending downwards out of the universal wheel frame body unit (8).

7. A safety monitoring facility dedicated to construction site equipment as claimed in claim 6, wherein: the universal wheel frame body unit (8) comprises a rectangular frame body (801) arranged on the rear vertical pipe (2) and the front lower vertical pipe (3), and a universal wheel main body (802) arranged on the rectangular frame body (801) and positioned above the opening (9).

8. A safety monitoring facility dedicated to construction site equipment as claimed in claim 7, wherein: the universal wheel carrier body unit (8) further comprises a transverse through hole (803) arranged on the rectangular frame body (801) and a plug rod (804) arranged on the transverse through hole (803), and mounting holes (10) for inserting the plug rod (804) are formed in the rear vertical pipe (2) and the front lower vertical pipe (3).

9. A safety monitoring facility dedicated to construction site equipment as claimed in claim 8, wherein: and 2 mounting holes (10) are formed in each of the rear vertical pipe (2) and the front lower vertical pipe (3).

10. A safety monitoring facility dedicated to construction site equipment as claimed in claim 7, wherein: the number of the universal wheel bodies (802) is 4.

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