CN218349541U - Building engineering environment monitoring device - Google Patents

Abstract

The utility model discloses a building engineering environment monitoring device, include counter weight box, cylinder, backup pad, control lead screw and fixed block, install first bracing piece and second bracing piece around the top of counter weight box respectively, the telescopic link is installed to the top of cylinder, the positive surface mounting of connecting rod has the backup pad, lead screw about installing between the bearing frame, the fixed block is installed to the top of connecting block, and installs the disc in relative one side of fixed block, control the right side of lead screw and install the handle, the activity hole has been seted up to the top of backup pad, the fourth slider is installed to both sides around the below of fixed block. This building engineering environment monitoring device is provided with cylinder and telescopic link, starts cylinder on the second bracing piece in left side and drives the telescopic link and reciprocate, then drives connecting rod and backup pad in proper order and reciprocates under the effect of fixed plate to drive the control appearance in the backup pad and reciprocate, carry out the environmental monitoring of co-altitude not.

Description

Building engineering environment monitoring device

Technical Field

The utility model relates to an environmental monitoring technical field specifically is a building engineering environmental monitoring device.

Background

The building engineering environment monitoring device is a device for monitoring the environment of a building construction site, the building refers to an asset formed by artificial construction, belongs to the category of fixed assets, and comprises two categories of houses and structures, the houses refer to engineering buildings for people to live, work, study, production, operation, entertainment, article storage and other social activities, the difference between the buildings is the structures, the structures refer to engineering buildings except the houses, such as enclosing walls, roads, dams, water wells, tunnels, water towers, bridges, chimneys and the like, the environment of the engineering buildings needs to be monitored in real time in the construction engineering to ensure safe construction, and the traditional building engineering environment monitoring device has the following problems:

1. the monitoring equipment cannot adjust the height according to different environments, is only suitable for monitoring the environments with fixed height, and cannot monitor the environments with different heights, so that the monitoring has certain limitation, and meanwhile, the maintenance and the replacement of workers are not facilitated;

2. the fixing device of the monitoring instrument is easy to generate different degrees of abrasion on the surface of the monitoring instrument when being fixed.

We have therefore proposed a construction environment monitoring apparatus in order to solve the problems set forth above.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a building engineering environment monitoring device to solve the present market that above-mentioned background art provided and go up supervisory equipment and can't carry out altitude mixture control according to different environment, can only be applicable to the environmental monitoring of fixed height, can't monitor the environment of co-altitude not, make the control have certain limitation, be unfavorable for staff's maintenance and change simultaneously, the fixing device of monitor produces the problem of the wearing and tearing of co-level to the monitor surface easily when fixed.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a building engineering environment monitoring device, includes counter weight box, cylinder, backup pad, controls lead screw and fixed block, install first bracing piece and second bracing piece around the top of counter weight box respectively, and the right side of second bracing piece installs the connecting plate, and the cylinder is installed in the outside of connecting plate, the telescopic link is installed to the top of cylinder, and the top of telescopic link installs the fixed plate, and the connecting rod is installed to the rear side of fixed plate, first slider is installed to the left side rear of connecting rod, the positive surface mounting of second bracing piece has first slide rail, the stiffener is all installed to the both sides of first bracing piece and second bracing piece, the positive surface mounting of connecting rod has the backup pad, and the cavity has been seted up to the inside of backup pad, and the bearing frame is installed to the inside left and right sides of cavity, install the lead screw about between the bearing frame, and install second slider and third slider respectively about and the left and right sides of lead screw, and the top of second slider and third slider all installs the connecting block in addition, the fixed block is installed to the relative one side of fixed block, the handle is installed on the right side of left and right sides of lead screw, the right side of backup pad has the movable hole, and the fixed block, and the top of movable surface mounting of second slider is located the fourth fixed block, the front and back of slide rail is located the front and back of movable hole.

Preferably, the number of the first supporting rods and the number of the second supporting rods are 2, the first supporting rods are located in front of the second supporting rods, the number of the reinforcing rods is 4, and the air cylinders are installed on the left second supporting rod.

Adopt above-mentioned structural design, make this building engineering environment monitoring device stable in structure, the cylinder on the second bracing piece in left side drives the telescopic link and reciprocates, then drives connecting rod and backup pad in proper order and reciprocates under the effect of fixed plate to drive the control appearance in the backup pad and reciprocate, carry out the environmental monitoring of co-altitude not.

Preferably, the first sliding block and the first sliding rail form a sliding structure.

By adopting the structural design, the connecting rod moves up and down under the action of the telescopic rod, so that the first sliding block at the rear of the left side of the telescopic rod moves up and down on the first sliding rail, and the first sliding rail plays a role in guiding, so that the device moves up and down more stably.

Preferably, the left and right screw rods, the second sliding block and the third sliding block form a sliding structure.

By adopting the structural design, the handle is rotated clockwise to drive the left screw rod and the right screw rod to rotate, then the second sliding block and the third sliding block on the left side and the right side of the left screw rod are driven to move relatively, then the connecting block above the second sliding block and the third sliding block and the fixed block above the connecting block are sequentially driven to move relatively, and then the disc on one side opposite to the fixed block is tightly attached to the left side and the right side of the monitor to fix the monitor.

Preferably, the central line of the movable hole is overlapped with the transverse central line above the supporting plate, and the width of the movable hole is larger than that of the connecting block.

Adopt above-mentioned structural design, guarantee that the connecting block can pass the movable hole and connect in the fixed block to guarantee that the fixed block can remove about, fix the control appearance.

Preferably, the second slide rail and the fourth slide block form a sliding structure.

By adopting the structural design, when the fixed block moves relatively to fix the monitor, the second slide rails of the fourth slide blocks on the supporting plate on the front side and the rear side of the lower part of the fixed block slide, and the fixed block moves stably and is not easy to deviate after being fixed due to the matching of the second slide rails and the fourth slide blocks.

Compared with the prior art, the beneficial effects of the utility model are that: this building engineering environment monitoring device:

1. the air cylinder and the telescopic rod are arranged, the air cylinder on the left second supporting rod is started to drive the telescopic rod to move up and down, and then the connecting rod and the supporting plate are sequentially driven to move up and down under the action of the fixing plate, so that the monitoring instrument on the supporting plate is driven to move up and down, and environment monitoring at different heights is carried out;

2. the monitoring instrument is fixed by clamping the discs, so that the monitoring instrument cannot be abraded when the fixed block is fixed by the fixed block, the discs are adsorbed on the surface of the monitoring instrument, and the fixing effect is better;

3. be provided with the counter weight box, put into appropriate amount balancing weight at the counter weight box according to the environment of reality, if meet strong wind weather, increase this building engineering environment monitoring device bottom weight, make it be difficult for empting in the increase balancing weight box.

Drawings

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

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of the main sectional structure of the cavity of the present invention;

FIG. 4 is a schematic top view of the support plate of the present invention;

fig. 5 is a schematic view of the connection structure between the connecting rod and the first slide rail of the present invention;

fig. 6 is a schematic top view of the connection rod and the first slide rail according to the present invention;

fig. 7 is the schematic view of the connection structure of the fixing block and the second slide rail of the present invention.

In the figure: 1. a weight box; 2. a first support bar; 3. a second support bar; 4. a connecting plate; 5. a cylinder; 6. a telescopic rod; 7. a fixing plate; 8. a connecting rod; 9. a first slider; 10. a first slide rail; 11. a reinforcing bar; 12. a support plate; 13. a cavity; 14. a bearing seat; 15. a left screw rod and a right screw rod; 16. a second slider; 17. a third slider; 18. connecting blocks; 19. a fixed block; 20. a disc; 21. a handle; 22. a movable hole; 23. a monitor; 24. a second slide rail; 25. and a fourth slider.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides a building engineering environment monitoring device, including counter weight box 1, first bracing piece 2, second bracing piece 3, connecting plate 4, cylinder 5, telescopic link 6, fixed plate 7, connecting rod 8, first slider 9, first slide rail 10, stiffener 11, backup pad 12, cavity 13, bearing frame 14, control lead screw 15, second slider 16, third slider 17, connecting block 18, fixed block 19, disc 20, handle 21, activity hole 22, control appearance 23, second slide rail 24 and fourth slider 25, install first bracing piece 2 and second bracing piece 3 around the top of counter weight box 1 respectively, and connecting plate 4 is installed on the right side of second bracing piece 3, and cylinder 5 is installed in the outside of connecting plate 4, first bracing piece 2 and second bracing piece 3 all are provided with 2, and first bracing piece 2 is located second bracing piece 3 the place ahead, while stiffener 11 is provided with 4, cylinder 5 is installed on left second bracing piece 3, make this building engineering environment monitoring device stable in structure, cylinder 5 on the left side second bracing piece 3 drives then 6, drive backup pad 8 and drive the effect of connecting rod 7 and the control appearance 12 on the backup pad in proper order and reciprocate to move about, thereby the monitoring appearance 23 on the environment reciprocates differently.

An expansion link 6 is arranged above the cylinder 5, a fixed plate 7 is arranged above the expansion link 6, a connecting rod 8 is arranged at the rear side of the fixed plate 7, a first slide block 9 is arranged at the rear of the left side of the connecting rod 8, a first slide rail 10 is arranged on the front surface of the second support rod 3, the first slide block 9 and the first slide rail 10 form a sliding structure, the connecting rod 8 moves up and down under the action of the expansion link 6, so that the first slide block 9 at the rear of the left side of the expansion link 6 moves up and down on the first slide rail 10, meanwhile, the first slide rail 10 plays a guiding role, the device moves up and down more stably, reinforcing rods 11 are arranged on two sides of the first support rod 2 and the second support rod 3, a support plate 12 is arranged on the front surface of the connecting rod 8, and a cavity 13 is arranged inside the support plate 12, and the bearing blocks 14 are arranged on the left and right sides in the cavity 13, the left and right screw rods 15 are arranged between the bearing blocks 14, the second sliding blocks 16 and the third sliding blocks 17 are respectively arranged on the left and right sides of the left and right screw rods 15, the second sliding blocks 16 and the third sliding blocks 17 form a sliding structure, the handle 21 is rotated clockwise to drive the left and right screw rods 15 to rotate, then the second sliding blocks 16 and the third sliding blocks 17 on the left and right sides of the left and right screw rods 15 are driven to move relatively, then the connecting blocks 18 above the second sliding blocks 16 and the third sliding blocks 17 and the fixing blocks 19 above the connecting blocks 18 are sequentially driven to move relatively, then the discs 20 on the opposite side of the fixing blocks 19 are tightly attached to the left and right sides of the monitor 23, and the monitor 23 is fixed.

Connecting blocks 18 are installed above the second sliding blocks 16 and the third sliding blocks 17, fixed blocks 19 are installed above the connecting blocks 18, discs 20 are installed on one opposite sides of the fixed blocks 19, handles 21 are installed on the right sides of the left and right screw rods 15, movable holes 22 are formed above the supporting plate 12, the center lines of the movable holes 22 and the transverse center line above the supporting plate 12 coincide with each other, the width of each movable hole 22 is larger than that of the corresponding connecting block 18, it is guaranteed that the connecting blocks 18 can penetrate through the movable holes 22 to be connected to the fixed blocks 19, it is guaranteed that the fixed blocks 19 can move left and right, the monitoring instrument 23 is fixed above the supporting plate 12, the monitoring instrument 23 is installed above the supporting plate 12 through the fixed blocks 19, second sliding rails 24 are installed on the upper surface of the supporting plate 12, meanwhile, the second sliding rails 24 are located on the front and back sides of the movable holes 22, fourth sliding blocks 25 are installed on the front and back sides of the lower portions of the fixed blocks 19, the second sliding rails 24 and the fourth sliding blocks 25 form a sliding structure, when the monitoring instrument 23 is fixed by relative movement, and the fixed blocks 19 do not prone to move after the fixed blocks 19 are fixed.

The working principle is as follows: when the building engineering environment monitoring device is used, firstly, the monitoring instrument 23 is placed on the front surface above the supporting plate 12, then the handle 21 is rotated clockwise to drive the left and right screw rods 15 to rotate, then the second slide block 16 and the third slide block 17 on the left and right sides of the left and right screw rods 15 are driven to move relatively, then the connecting block 18 above the second slide block 16 and the third slide block 17 and the fixed block 19 above the connecting block 18 are sequentially driven to move relatively, then the disc 20 on the opposite side of the fixed block 19 is tightly attached to the left and right sides of the monitoring instrument 23 to fix the monitoring instrument 23, then the air cylinder 5 on the left second supporting rod 3 is started to drive the telescopic rod 6 to move upwards, then the connecting rod 8 and the supporting plate 12 are sequentially driven to move upwards under the action of the fixed plate 7, so as to drive the monitoring instrument 23 on the supporting plate 12 to move upwards, when the monitoring instrument 23 moves to the monitoring height, the air cylinder 5 is stopped, the height of the monitoring instrument 23 needs to be adjusted, the height of the monitoring instrument 23 similarly, the monitoring instrument 23 is adjusted through the control air cylinder 5, when the monitoring instrument 23 needs to be maintained, the monitoring instrument 23, the height is adjusted to be adjusted to the manually operated, the handle 21 is rotated anticlockwise, so that the fixed block 19 moves reversely, and the monitoring instrument 23 is removed. Thereby completing a series of works. Those not described in detail in this specification are within the skill of the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. The utility model provides a building engineering environmental monitoring device, includes counter weight box (1), cylinder (5), backup pad (12), controls lead screw (15) and fixed block (19), its characterized in that: a first supporting rod (2) and a second supporting rod (3) are respectively installed on the front portion and the rear portion of the upper portion of the counterweight box (1), a connecting plate (4) is installed on the right side of the second supporting rod (3), an air cylinder (5) is installed on the outer side of the connecting plate (4), a telescopic rod (6) is installed on the upper portion of the air cylinder (5), a fixing plate (7) is installed on the upper portion of the telescopic rod (6), a connecting rod (8) is installed on the rear side of the fixing plate (7), a first sliding block (9) is installed on the rear portion of the left side of the connecting rod (8), a first sliding rail (10) is installed on the front surface of the second supporting rod (3), reinforcing rods (11) are installed on two sides of the first supporting rod (2) and the second supporting rod (3), a supporting plate (12) is installed on the front surface of the connecting rod (8), a cavity (13) is formed in the supporting plate (12), bearing seats (14) are installed on the left side and the right side of the interior of the cavity (13), left and right screw rods (15) are installed between the bearing seats (14), second sliders (16) and third sliders (17) are installed on the left side and the right side of the left and right screw rods (15), connecting blocks (18) are installed above the second sliders (16) and the third sliders (17), and fixing blocks (19) are installed above the connecting blocks (18), and disc (20) are installed to the relative one side of fixed block (19), handle (21) are installed on the right side of controlling lead screw (15), activity hole (22) have been seted up to the top of backup pad (12), and monitor (23) are installed through fixed block (19) in the top of backup pad (12), and the last surface mounting of backup pad (12) has second slide rail (24) moreover, and second slide rail (24) are located both sides around activity hole (22) simultaneously, fourth slider (25) are installed to both sides around the below of fixed block (19).

2. A construction work environment monitoring apparatus according to claim 1, wherein: first bracing piece (2) and second bracing piece (3) all are provided with 2, and just first bracing piece (2) are located second bracing piece (3) the place ahead, and stiffener (11) are provided with 4 simultaneously, install on left second bracing piece (3) cylinder (5).

3. A construction work environment monitoring apparatus according to claim 1, wherein: the first sliding block (9) and the first sliding rail (10) form a sliding structure.

4. A construction work environment monitoring apparatus according to claim 1, wherein: the left and right screw rods (15), the second sliding block (16) and the third sliding block (17) form a sliding structure.

5. The building engineering environment monitoring device according to claim 1, characterized in that: the central line of the movable hole (22) is superposed with the transverse central line above the support plate (12), and the width of the movable hole (22) is larger than that of the connecting block (18).

6. A construction work environment monitoring apparatus according to claim 1, wherein: the second slide rail (24) and the fourth slide block (25) form a sliding structure.

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