CN217930159U - Device for detecting height of underwater building - Google Patents

Abstract

The utility model discloses a device for detecting building height under water, the female joint comprises a sleeve, telescopic bottom is provided with the installation axle, and installs the bottom of installation axle and insert ground nail, the through-hole has all been seted up to the both sides of sleeve outer wall, and the inside top of sleeve runs through there is the movable rod, and the top of movable rod installs GPS signal receiving assembly, the mounting groove has been seted up to one side of movable rod outer wall, and the inside one end of mounting groove installs first rack. The utility model discloses a be connected with waterproof wire between display mechanism subassembly and the GPS signal reception subassembly to and display mechanism subassembly sets up on holding the storehouse, makes measurement process display mechanism subassembly can not remove along with the movable rod, can show GPS signal reception subassembly's measurement numerical value simultaneously, thereby avoids causing the display mechanism subassembly problem that operating personnel of being not convenient for looked over when the movable rod displacement range is too big.

Description

Device for detecting height of underwater building

Technical Field

The utility model relates to a measuring equipment technical field especially relates to a device for detecting building height under water.

Background

Various underwater buildings are often required to be measured in the surveying and mapping process, the height inside the culvert part of the underwater buildings is typically measured, and the height is often impossible to realize by adopting a traditional measuring device because the height is underwater, so a special device for detecting the height of the underwater buildings is required to be adopted;

compared with an underwater hydraulic structure measurement GPS measuring rod disclosed in patent No. CN202020779528.4, the underwater hydraulic structure measurement GPS measuring rod is characterized in that the GPS measuring rod is provided with a socket, a bottom plate, an inserting nail and an outer sliding rod, when a culvert is measured, the socket can be inserted into soil in water in order to fix the measuring rod, at the moment, the bottom plate can push the inserting nail to enter the soil to fix the outer sliding rod, when the culvert is measured, the measuring rod can drive a hook to slide in the outer sliding rod, and the outer sliding rod can keep the stability of the measuring rod when the measuring rod moves, but certain problems still exist, and the specific problems are as follows;

this underwater structure measures GPS measuring staff is when using, and its display part sets up together with GPS receiving unit, and is located the top of measuring staff, and this just leads to under the inside higher condition of height of culvert, and the rise height of measuring staff is also higher thereupon, and then leads to operating personnel to be not convenient for look over the numerical value of display part, and then influences its use.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcoming that exists among the prior art, and the device for detecting building height under water that proposes, it is connected with waterproof wire through between display mechanism subassembly and the GPS signal reception subassembly, and the display mechanism subassembly sets up on holding the storehouse, make measurement process display mechanism subassembly can not remove along with the movable rod, can show the measurement numerical value of GPS signal reception subassembly simultaneously, thereby avoid causing the display mechanism subassembly to be not convenient for operating personnel to look over when the movable rod range of motion is too big problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a device for detecting building height under water, includes the sleeve, telescopic bottom is provided with the installation axle, and installs the bottom of installation axle and insert ground nail, the through-hole has all been seted up to the both sides of sleeve outer wall, and the inside top of sleeve runs through there is the movable rod, and the top of movable rod installs GPS signal reception subassembly, the mounting groove has been seted up to one side of movable rod outer wall, and the inside one end of mounting groove installs first rack, one side intercommunication that the sleeve outer wall is close to the mounting groove has the storehouse of holding, the movable rod outer wall is kept away from the bottom of holding storehouse one side and is installed the attaching plate, and the movable rod outer wall is close to the bottom of holding storehouse one side and installs tensile pole, and tensile pole extends to the inside that holds the storehouse, the top that holds the storehouse is installed display mechanism subassembly, and is connected with waterproof wire between display mechanism subassembly and the GPS signal reception subassembly to waterproof wire runs through holding storehouse and tensile pole, the top that holds storehouse and keep away from attaching plate one side runs through there is the pivot, and the pivot extends to the inside of mounting groove to the pivot is close to the one end that the mounting groove is installed first gear, the pivot is kept away from the one end of first gear, and install the rotation dish, and evenly seted up the spacing groove of spacing mechanism that is used for holding on the axis.

Preferably, the sleeve is connected with the mounting shaft in a rotating manner, and the sleeve is connected with the movable rod in a sliding manner.

Preferably, the central axis of the rotating shaft is parallel to the transverse central axis of the accommodating bin, and the rotating shaft is rotatably connected with the sleeve and the accommodating bin respectively.

Preferably, the central axis of the first gear and the central axis of the rotating shaft are coincident with each other, and the first gear is in meshed connection with the first rack.

Preferably, stop gear is including installing the flat type installation storehouse of keeping away from sleeve one side top in holding the storehouse, the inside bottom in flat type installation storehouse is close to telescopic one side and runs through current second rack, and the second rack extends to the inside of spacing groove, the inside top in flat type installation storehouse is kept away from telescopic one side and is run through there is the third rack, and is connected with the spring between third rack and the flat type installation storehouse, the fixed axle is installed to the intermediate position department at the inside both ends in flat type installation storehouse, and the outside cover of fixed axle is equipped with the second gear.

Preferably, the second gear is rotatably connected with the fixed shaft, and the second gear is respectively in meshed connection with the second rack and the third rack.

Compared with the prior art, the utility model, its beneficial effect does:

1. through being connected with waterproof wire between display mechanism subassembly and the GPS signal reception subassembly to and display mechanism subassembly sets up on holding the storehouse, make measurement process display mechanism subassembly can not remove along with the movable rod, can show GPS signal reception subassembly's measurement numerical value simultaneously, thereby avoid causing the problem that display mechanism subassembly is not convenient for operating personnel looks over when movable rod displacement range is too big.

2. The meshing through first gear and first rack is connected, and hold and be provided with the stop gear that the rotation of countershaft carries out the restriction on the storehouse, make operating personnel remove the movable rod and accomplish the back, can make the movable rod fix in this position department through stop gear, thereby make operating personnel need not fix the movable rod this moment and can carry out careful looking over and the record to numerical value, can fix the inside at telescopic with the movable rod complete adjustment when not using simultaneously, and then avoid independently sliding away from the sleeve carrying in-process movable rod, it is more convenient when making to carry the storage.

Drawings

Fig. 1 is a schematic view of a front cross-sectional structure of a device for detecting the height of an underwater building according to the present invention;

fig. 2 is an enlarged schematic view of a portion a of fig. 1 according to the present invention;

fig. 3 is an enlarged schematic view of the utility model at the point B in fig. 1;

figure 4 is the utility model provides a side view sectional structure schematic diagram of a device flat type installation storehouse for detecting building height under water.

In the figure: the device comprises a sleeve 1, a mounting shaft 2, a ground inserting nail 3, a through hole 4, a movable rod 5, a GPS signal receiving assembly 6, a mounting groove 7, a first rack 8, a holding bin 9, a binding plate 10, a stretching rod 11, a display mechanism assembly 12, a waterproof wire 13, a rotating shaft 14, a first gear 15, a rotating disc 16, a limiting groove 17, a flat mounting bin 18, a second rack 19, a third rack 20, a spring 21, a fixed shaft 22 and a second gear 23.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The invention may be embodied in many other forms different from the embodiments described herein and similar modifications may be made by those skilled in the art without departing from the spirit and scope of the invention and, therefore, the invention is not limited to the embodiments disclosed below.

Referring to fig. 1-4, a device for detecting the height of an underwater building, which includes a sleeve 1, wherein the bottom of the sleeve 1 is provided with an installation shaft 2, the bottom end of the installation shaft 2 is provided with a ground inserting nail 3, both sides of the outer wall of the sleeve 1 are provided with through holes 4, a movable rod 5 penetrates through the top of the interior of the sleeve 1, the top end of the movable rod 5 is provided with a GPS signal receiving assembly 6, the sleeve 1 is rotatably connected with the installation shaft 2, and the sleeve 1 is slidably connected with the movable rod 5, so that an operator can rotate the sleeve 1 after inserting the device at a specified position through the ground inserting nail 3, and further adjust the angle of the sleeve 1 to a position where a measurement task can be completed, and simultaneously after the sliding restriction on the movable rod 5 and the sleeve 1 is removed, the operator can realize the measurement task by sliding the movable rod 5, the movable rod 5 can be further connected with the sleeve 1 through a sliding chute slider structure, thereby ensuring the stability of the movable rod 5 in the sliding process;

one side of the outer wall of the movable rod 5 is provided with a mounting groove 7, one end inside the mounting groove 7 is provided with a first rack 8, one side of the outer wall of the sleeve 1, which is close to the mounting groove 7, is communicated with a containing bin 9, the bottom of the outer wall of the movable rod 5, which is far away from the containing bin 9, is provided with an attaching plate 10, the bottom of the outer wall of the movable rod 5, which is close to the containing bin 9, is provided with a stretching rod 11, the stretching rod 11 extends into the containing bin 9, the top of the containing bin 9 is provided with a display mechanism component 12, a waterproof wire 13 is connected between the display mechanism component 12 and the GPS signal receiving component 6, the waterproof wire 13 penetrates through the containing bin 9 and the stretching rod 11, the top of the side of the containing bin 9, which is far away from the attaching plate 10, is penetrated by a rotating shaft 14, the rotating shaft 14 extends into the mounting groove 7, a first gear 15 is mounted at one end of the rotating shaft 14 close to the mounting groove 7, a rotating disc 16 is mounted at one end of the rotating shaft 14 far away from the first gear 15, a limiting groove 17 is uniformly formed in the outer side of the rotating disc 16, the central axis of the rotating shaft 14 is parallel to the transverse central axis of the accommodating bin 9, the rotating shaft 14 is rotatably connected with the sleeve 1 and the accommodating bin 9 respectively, the central axis of the first gear 15 is overlapped with the central axis of the rotating shaft 14, and the first gear 15 is in meshed connection with the first rack 8, so that when the movable rod 5 moves up and down, the rotating shaft 14 can rotate correspondingly, and when the rotation of the rotating shaft 14 is limited, the sliding of the movable rod 5 is limited accordingly;

hold and be provided with the stop gear who is used for restricting the rotation of countershaft 14 on the storehouse 9, stop gear is including installing the flat installation storehouse 18 that holds storehouse 9 and keep away from sleeve 1 one side top, one side that the inside bottom of flat installation storehouse 18 is close to sleeve 1 runs through current second rack 19, and second rack 19 extends to the inside of spacing groove 17, one side that sleeve 1 was kept away from at the inside top of flat installation storehouse 18 has run through third rack 20, and be connected with spring 21 between third rack 20 and the flat installation storehouse 18, the intermediate position department at the inside both ends of flat installation storehouse 18 installs fixed axle 22, and the outside cover of fixed axle 22 is equipped with second gear 23, second gear 23 is connected for rotating with fixed axle 22, and second gear 23 is connected for meshing with second rack 19 and third rack 20 respectively, make operating personnel can drive second rack 19 and remove the rotation restriction to countershaft 14 through holding flat installation storehouse 18 and pressing fixed axle 22, make convenient and fast more during the operation.

When the utility model is used, as shown in fig. 1-4, the device is powered by a storage battery or an external power supply, the device is inserted on the ground of the culvert mouth of an underwater building by inserting the ground nail 3, the sleeve 1 is connected with the rotation of the installation shaft 2, the attachment plate 10 is inserted into the culvert by rotating the sleeve 1, at the moment, an operator can hold the flat installation bin 18 by one hand and press the third rack 20 along with the trend, the second gear 23 is respectively connected with the third rack 20 and the second rack 19 in a meshing way, so that the second gear 23 can correspondingly rotate, the second rack 19 is further separated from the corresponding limit groove 17, the rotation limit of the rotating shaft 14 is relieved, the movable rod 5 can move up and down and drive the rotating shaft 14 to rotate, the operator can hold the movable rod 5 by the other hand and slide the movable rod, firstly, the jointing plate 10 is contacted with the bottom inside the culvert through sliding the movable rod 5, at the moment, the third rack 20 is loosened, the spring 21 drives the third rack 20 to restore to the initial position, the second rack 19 moves downwards and is inserted into the corresponding rotating disc 16 again, the rotation of the rotating shaft 14 is limited, the relative sliding between the movable rod 5 and the sleeve 1 is limited through the meshing connection of the first gear 15 and the first rack 8, so that an operator can not hold the sleeve 1 at the moment, check and record the height of the GPS signal receiving component 6 displayed on the display mechanism component 12, then hold the flat mounting bin 18 again and press the third rack 20, simultaneously slide the movable rod 5 upwards until the jointing plate 10 is jointed with the top inside the culvert, at the moment, the third rack 20 is loosened again to check and record the data on the display mechanism component 12, the inside height of culvert can be obtained by subtracting the height numerical value that will measure twice, display mechanism subassembly 12 position does not remove along with movable rod 5 this moment simultaneously, make operating personnel still can be convenient look over, simultaneously movable rod 5 is in the rising in-process, tensile pole 11 can rise thereupon, and then make waterproof wire 13 can outwards extend, cooperation movable rod 5's rising, and when movable rod 5 descends, tensile pole 11 can press unnecessary waterproof wire 13 to the inside that holds storehouse 9 thereupon, avoid it to be scattered outside, when needing to save or carrying the device, press third rack 20 and slide movable rod 5 to minimum amplitude, then loosen third rack 20, make movable rod 5 fix in this position department, thereby be convenient for operating personnel to carry the storage to the device.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a device for detecting building height under water, includes sleeve (1), its characterized in that, the bottom of sleeve (1) is provided with installation axle (2), and installs ground nail (3) of inserting in the bottom of installation axle (2), through-hole (4) have all been seted up to the both sides of sleeve (1) outer wall, and the top of sleeve (1) inside has run through movable rod (5), and the top of movable rod (5) installs GPS signal reception subassembly (6), mounting groove (7) have been seted up to one side of movable rod (5) outer wall, and the inside one end of mounting groove (7) installs first rack (8), one side intercommunication that sleeve (1) outer wall is close to mounting groove (7) has the storehouse of holding (9), movable rod (5) outer wall is kept away from the bottom of holding storehouse (9) one side and is installed rigging board (10), and movable rod (5) outer wall is close to the bottom of holding storehouse (9) one side and installs tensile pole (11), and pole (11) extend to the inside of holding storehouse (9), the top of holding storehouse (9) is installed display mechanism subassembly (12), and show that wire subassembly (12) and waterproof wire (13) are connected with tensile storehouse (13), hold storehouse (9) and keep away from top of attaching plate (10) one side and run through pivot (14), and pivot (14) extend to the inside of mounting groove (7) to pivot (14) are close to the one end of mounting groove (7) and install first gear (15), the one end of keeping away from first gear (15) in pivot (14) is installed and is changeed dish (16), and the outside of changeing dish (16) has evenly seted up spacing groove (17), it is provided with the stop gear who is used for restricting the rotation of countershaft (14) on storehouse (9).

2. A device for detecting the height of an underwater structure according to claim 1, characterized in that the sleeve (1) is in rotational connection with the mounting shaft (2) and the sleeve (1) is in sliding connection with the movable bar (5).

3. A device for detecting the height of an underwater structure as claimed in claim 1, wherein the central axis of the rotary shaft (14) and the transverse central axis of the containing chamber (9) are parallel to each other, and the rotary shaft (14) is rotatably connected to the sleeve (1) and the containing chamber (9), respectively.

4. A device for detecting the height of a structure located under water according to claim 1, wherein the central axis of the first gear (15) and the central axis of the rotating shaft (14) coincide with each other, and the first gear (15) is in meshing connection with the first rack (8).

5. The device for detecting the height of an underwater building according to claim 1, wherein the limiting mechanism comprises a flat type installation bin (18) installed at the top of one side, far away from the sleeve (1), of the accommodating bin (9), one side, close to the sleeve (1), of the inner bottom of the flat type installation bin (18) penetrates through an existing second rack (19), the second rack (19) extends to the inside of the limiting groove (17), a third rack (20) penetrates through one side, far away from the sleeve (1), of the inner top of the flat type installation bin (18), a spring (21) is connected between the third rack (20) and the flat type installation bin (18), a fixed shaft (22) is installed at the middle position of two ends of the inner portion of the flat type installation bin (18), and a second gear (23) is sleeved on the outer side of the fixed shaft (22).

6. A device for detecting the height of an underwater structure according to claim 5, characterised in that the second gear (23) is in rotational connection with the fixed shaft (22) and in that the second gear (23) is in meshing connection with the second rack (19) and the third rack (20), respectively.

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