CN219954924U - Monocular photographic surface high-precision deformation monitoring device - Google Patents

Abstract

The utility model provides a monocular photographing surface high-precision deformation monitoring device, which comprises a handheld sleeve, wherein a telescopic rod is inserted into the handheld sleeve, the upper end of the telescopic rod is connected with a mounting block through a bolt, and an opening at the middle part of the left side of the mounting block is connected with a universal metal hose through threads; the left end of the universal metal hose is provided with a mounting plate, and the left end of the universal metal hose is in threaded connection with an opening in the middle of the right part of the mounting plate; the left part of the mounting plate is connected with a camera component through bolts, and is characterized in that the lower end of the handheld sleeve is connected with a mud grabbing support rod structure. The support rod, the conical plug, the mud grabbing hook, the sliding sleeve, the connecting rod and the support plate are arranged, so that the effect of the mud grabbing fixing device is realized, and the stability of the device in river water can be effectively improved.

Description

Monocular photographic surface high-precision deformation monitoring device

Technical Field

The utility model belongs to the technical field of monocular stereoscopic vision camera shooting, and particularly relates to a monocular camera surface high-precision deformation monitoring device.

Background

The utility model provides a monocular photographic surface high accuracy deformation monitoring devices is the equipment of the image of a measured object through camera subassembly collection to the condition of analysis measured object deformation, a monocular stereoscopic vision measuring device of publication No. CN215810687U, including support and camera subassembly, the scale shell is equipped with to the inboard card of support, the sliding connection in the scale shell outside has the floating disc, the both sides of floating disc are provided with the auxiliary member, support top fixedly connected with connecting rod, this measuring device still has some problems in the in-service use, like: when the measuring device is placed in river water, the measuring device may not stand stably in the river water due to the buoyancy of water and the thrust of the river water, and thus may cause a problem that the measuring device cannot be used in the river water.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a monocular photographing surface high-precision deformation monitoring device which can achieve the effect of a mud grabbing fixing device and can effectively improve the stability of the device in river water.

The technical scheme is as follows: the utility model provides a monocular photographic surface high accuracy deformation monitoring devices, includes the handheld sleeve pipe, and the inside grafting of handheld sleeve pipe has the telescopic link, and the upper end bolted connection of telescopic link has the installation piece, and wherein the left middle part opening part of installation piece threaded connection has universal metal collapsible tube; the left end of the universal metal hose is provided with a mounting plate, and the left end of the universal metal hose is in threaded connection with an opening in the middle of the right part of the mounting plate; the left part of the mounting plate is connected with a camera component through bolts, and is characterized in that the lower end of the handheld sleeve is connected with a mud grabbing support rod structure.

Preferably, the mud grabbing support rod structure comprises a support rod, and a conical plug is integrally connected to the lower end of the support rod; the peripheral parts of the lower side of the outer wall of the support rod are respectively connected with a mud grabbing hook in an integrated manner; the lower side of the outer wall of the supporting rod is sleeved with a sliding sleeve and is fixedly connected and arranged through bolts; the sliding sleeve is positioned on the upper side of the mud grabbing hook; the connecting rod is integrally connected to the periphery of the lower side of the outer wall of the sliding sleeve respectively, the outer ends of the connecting rod are obliquely arranged downwards, and the outer ends of the connecting rod are transversely and integrally connected with the supporting plate.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the arrangement of the support rod, the conical plug, the mud grabbing hook, the sliding sleeve, the connecting rod and the support plate is beneficial to realizing the effect of the mud grabbing fixing device, and can effectively improve the stability of the device in river water.

2. According to the anti-skid sleeve, the anti-skid sleeve is arranged, so that an operator can apply thrust to the handheld sleeve through the hand without skidding, and the anti-skid function is realized.

3. In the utility model, the arrangement of the handheld sleeve, the telescopic rod and the hand-screwed bolt is beneficial to realizing the function of conveniently adjusting the height of the camera component; when adjusting the camera subassembly, operating personnel only need not hard up the hand and twist the bolt, makes the telescopic link can slide in handheld sheathed tube inside, upwards or down removes the telescopic link afterwards, makes it pass through the installation piece, and universal metal collapsible tube and mounting panel drive the camera subassembly and remove to the height of camera subassembly then can change.

4. In the utility model, the arrangement of the universal metal hose is beneficial to realizing the function of universal adjustment of the camera component.

Drawings

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

Fig. 2 is a schematic structural view of the mud grabbing support bar structure of the present utility model.

FIG. 3 is a right side view of the construction of the mud gripping support bar of the present utility model in use.

In the figure:

1. a hand-held sleeve; 2. a telescopic rod; 3. a mounting block; 4. a universal metal hose; 5. a mounting plate; 6. a camera assembly; 7. screwing the bolt by hand; 8. an anti-skid sleeve; 9. a mud grabbing support rod structure; 91. a support rod; 92. a conical plug; 93. a mud grabbing hook; 94. sliding the sleeve; 95. a connecting rod; 96. and a support plate.

Detailed Description

The utility model is specifically described below with reference to the accompanying drawings, as shown in fig. 1 and fig. 2, a monocular photographic surface high-precision deformation monitoring device comprises a handheld sleeve 1, wherein a telescopic rod 2 is inserted into the handheld sleeve 1, the upper end of the telescopic rod 2 is connected with a mounting block 3 through a bolt, and an opening at the middle part of the left side of the mounting block 3 is in threaded connection with a universal metal hose 4; the left end of the universal metal hose 4 is provided with a mounting plate 5, and the left end of the universal metal hose 4 is in threaded connection with an opening in the middle of the right part of the mounting plate 5; the left part of the mounting plate 5 is connected with a camera component 6 through bolts.

The monocular photographing surface high-precision deformation monitoring device further comprises a mud grabbing supporting rod structure 9, the mud grabbing supporting rod structure 9 is connected with the handheld sleeve 1, the effect of the mud grabbing fixing device is achieved, and the stability of the device in river water can be effectively improved.

The mud grabbing support rod structure 9 comprises a support rod 91, and a conical plug 92 is integrally connected to the lower end of the support rod 91; the peripheral parts of the lower side of the outer wall of the supporting rod 91 are respectively and integrally connected with a mud grabbing hook 93; the lower side of the outer wall of the supporting rod 91 is sleeved with a sliding sleeve 94 and is fixedly connected and arranged through bolts; the sliding sleeve 94 is positioned on the upper side of the mud grabbing hook 93; the connecting rods 95 are integrally connected to the periphery of the lower side of the outer wall of the sliding sleeve 94, the outer ends of the connecting rods 95 are obliquely arranged downwards, and the outer ends of the connecting rods 95 are transversely and integrally connected with supporting plates 96.

In this embodiment, referring to fig. 3, when the device is installed in river, firstly, the bolts for fastening the supporting rod 91 and the sliding sleeve 94 are loosened, then the sliding sleeve 94 is pushed upwards, the sliding sleeve 94 drives the supporting plate 96 to move upwards through the connecting rod 95, the supporting plate 96 is higher than the mud grabbing hook 93, then the supporting rod 91 is fastened with the sliding sleeve 94 through the bolts, then an operator can erect the device in river, and push the handheld sleeve 1 downwards through the anti-slip sleeve 8, so that the handheld sleeve 1 drives the supporting rod 91 to move downwards, at this moment, the supporting rod 91 is inserted into the river bottom through the conical plug 92, and therefore, after the supporting rod 91 is inserted into the river bottom, the mud grabbing hook 93 is buried, and when the supporting rod 91 moves upwards, surrounding mud can prevent the supporting rod 91 from moving upwards through the mud grabbing hook 93, so that the supporting rod 91 can be firmly inserted into the river bottom through the mud grabbing hook 93; after the supporting rod 91 enters the ground, the supporting plate 96 contacts with the upper part of the river bottom, and the supporting plate 96 is rectangular, so that the contact area between the supporting plate 96 and the river bottom is large, and even if the thrust of river water acts on the handheld sleeve 1, the supporting plate 96 cannot sink into the river bottom, the effect of the mud grabbing fixing device is achieved, and the stability of the device in the river water can be effectively improved.

In this embodiment, specifically, the upper end of the supporting rod 91 is connected with the lower end of the handheld sleeve 1 by a bolt.

In this embodiment, specifically, the opening at the upper right side of the handheld sleeve 1 is screwed with a hand-screwed bolt 7, and the handheld sleeve 1 is fastened and connected with the telescopic rod 2 through the hand-screwed bolt 7.

In this embodiment, specifically, the middle part of the outer wall of the handheld sleeve 1 is glued with an anti-slip sleeve 8.

In this embodiment, specifically, the mud grabbing hook 93 adopts an arc stainless steel hook with a conical upper end, and plays a role in grabbing mud.

In this embodiment, the supporting plate 96 is a rectangular stainless steel plate, which serves to increase the contact area between the monitoring device and the river bottom, so that the detecting device can be stably erected in the river.

In this embodiment, specifically, the anti-slip sleeve 8 is a rubber sleeve, which plays an anti-slip role.

Principle of operation

When the device is installed in river water, bolts for fastening the supporting rod 91 and the sliding sleeve 94 are loosened, the sliding sleeve 94 is pushed upwards, the sliding sleeve 94 drives the supporting plate 96 to move upwards through the connecting rod 95, the supporting plate 96 is higher than the mud grabbing hooks 93, the supporting rod 91 and the sliding sleeve 94 are fastened through the bolts, an operator can erect the device in river water, and push the handheld sleeve 1 downwards through the anti-skid sleeves 8, the handheld sleeve 1 drives the supporting rod 91 to move downwards, at the moment, the supporting rod 91 is inserted into the river bottom through the conical plugs 92, the river bottom is softer, so that after the supporting rod 91 is inserted into the river bottom, the mud grabbing hooks 93 are buried, and when the supporting rod 91 moves upwards, surrounding mud can prevent the supporting rod 91 from moving upwards through the mud grabbing hooks 93, so that the supporting rod 91 can be firmly inserted into the river bottom through the mud grabbing hooks 93; after the supporting rod 91 enters the ground, the supporting plate 96 contacts with the upper part of the river bottom, and the supporting plate 96 is rectangular, so that the contact area between the supporting plate 96 and the river bottom is large, and even if the thrust of river water acts on the handheld sleeve 1, the supporting plate 96 cannot sink into the river bottom, the effect of the mud grabbing fixing device is achieved, and the stability of the device in the river water can be effectively improved.

By using the technical scheme of the utility model or under the inspired by the technical scheme of the utility model, a similar technical scheme is designed by a person skilled in the art, so that the technical effects are achieved, and the technical effects fall into the protection scope of the utility model.

Claims (5)

1. The utility model provides a monocular photographic surface high accuracy deformation monitoring devices, includes handheld sleeve pipe (1), and inside grafting of handheld sleeve pipe (1) has telescopic link (2), and the upper end bolted connection of telescopic link (2) has installation piece (3), and wherein installation piece (3) left side middle part opening part threaded connection has universal metal collapsible tube (4); the left end of the universal metal hose (4) is provided with a mounting plate (5), and the left end of the universal metal hose (4) is in threaded connection with an opening at the middle part of the right part of the mounting plate (5); the left part of the mounting plate (5) is connected with a camera component (6) through bolts, and is characterized in that the lower end of the handheld sleeve (1) is connected with a mud grabbing support rod structure (9).

2. The monocular photography surface high-precision deformation monitoring device according to claim 1, wherein the mud grabbing support bar structure (9) comprises a support bar (91), and a conical plug (92) is integrally connected to the lower end of the support bar (91); mud grabbing hooks (93) are respectively integrally connected to the peripheral parts of the lower side of the outer wall of the supporting rod (91); the lower side of the outer wall of the supporting rod (91) is sleeved with a sliding sleeve (94) and is fixedly connected and arranged through bolts; the sliding sleeve (94) is positioned on the upper side of the mud grabbing hook (93); the connecting rods (95) are integrally connected to the periphery of the lower side of the outer wall of the sliding sleeve (94), the outer ends of the connecting rods (95) are obliquely arranged downwards, and the outer ends of the connecting rods (95) are transversely and integrally connected with the supporting plates (96).

3. The monocular photography surface high-precision deformation monitoring device according to claim 2, wherein the upper end of the supporting rod (91) is connected with the lower end of the handheld sleeve (1) through bolts.

4. The monocular photography surface high-precision deformation monitoring device according to claim 1, wherein a hand-screwed bolt (7) is connected to an opening at the right upper part of the hand-held sleeve (1) in a threaded manner, and the hand-held sleeve (1) is fixedly connected with the telescopic rod (2) through the hand-screwed bolt (7).

5. The monocular photography surface high-precision deformation monitoring device according to claim 1, wherein an anti-slip sleeve (8) is glued at the middle part of the outer wall of the handheld sleeve (1).