CN213579603U - Water level reconnaissance monitoring devices for hydraulic engineering - Google Patents

Abstract

The utility model discloses a water level reconnaissance monitoring devices for hydraulic engineering, the on-line screen storage device comprises a base, the support arm, the mounting, the xarm, the connecting plate, the mount, monitoring devices main part and auxiliary device, the utility model discloses an install auxiliary device at the connecting plate front end, and the auxiliary device front end is connected with the mount of installing the monitoring devices main part, install drive mechanism in auxiliary device, drive mechanism carries out the transmission after driving pulley motion by driving motor, can make the mount of front end carry out stable position control, and install clean mechanism in auxiliary device, install the sponge in the clean mechanism, when the mount takes the monitoring devices main part to move in the clean mechanism of right-hand member, the sponge can clean the head of monitoring devices main part sensing bottom, reduces artificial operation, and is automatic effectual.

Description

Water level reconnaissance monitoring devices for hydraulic engineering

Technical Field

The utility model particularly relates to a water level reconnaissance monitoring devices for hydraulic engineering relates to the relevant field of hydraulic engineering water level reconnaissance monitoring.

Background

The water conservancy project is a project built for controlling and allocating surface water and underground water in the nature to achieve the purposes of removing harm and benefiting, is also called water project, water is a valuable resource essential for human production and life, but the naturally existing state of the water does not completely meet the needs of human beings, and a special reconnaissance monitoring device is required to be used for monitoring the water level in the water conservancy project.

At current utilize water level reconnaissance monitoring devices for engineering to carry out the in-service use in-process, only singly adopt single fixing device to fix monitoring devices, when needing the adjusting position, need artifical the back of dismantling to need also regularly clean the sensing head of monitoring devices bottom, avoid causing the monitoring data deviation, all need the manual work to handle, comparatively consume the manpower.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above insufficiency, the utility model provides a water level reconnaissance monitoring devices for hydraulic engineering here.

The utility model is realized in such a way, a water level investigation monitoring device for hydraulic engineering is constructed, the device comprises a base, a support arm is vertically fixed at the middle part of the top end of the base, a fixing part is welded at the upper end of the front end face of the support arm, the front end of the fixing part is fixed with a transverse arm, the front end of the transverse arm is connected with a connecting plate, a fixing frame is arranged in front of the connecting plate, a main body of the monitoring device is embedded in the front end of the fixing frame, the front end of the connecting plate is connected with an auxiliary device, the front end of the auxiliary device is connected with the fixing frame, the auxiliary device comprises a fixing box, a driving motor, a sliding groove, a sliding block and a cleaning mechanism, the lower end of the back of the fixing box is fixed with the connecting plate, the driving motor is arranged at the left and right ends of the back of the fixing box, the, and a cleaning mechanism is arranged at the right lower end of the front end face of the fixed box.

Preferably, the fixed case includes casing, driving pulley, hold-in range, driven pulleys, connecting axle and drive mechanism, the upper left end is provided with driving pulley in the casing, middle part meets with driving motor front end output shaft in the driving pulley, driving pulley external diameter surface carries out synchronous rotation through hold-in range and driven pulleys, mid-mounting has the connecting axle in the driven pulleys, the connecting axle front end meets with drive mechanism.

Preferably, drive mechanism includes the extension board, rotates piece, gear, connecting rod, sliding block, guide way and ring gear, the bottom is fixed in extension board bottom and the casing, the extension board front end face upper end is provided with rotates the piece, the right-hand member meets with the connecting axle in rotating the piece, the left end articulates with the gear in rotating the piece, middle part is articulated mutually with the connecting rod in the gear, the right-hand member articulates with the sliding block in the connecting rod, the middle part is embedded into to the guide way in the activity of sliding block lower extreme, both ends are fixed with the extension board about the guide way back, gear external diameter surface and ring gear intermeshing to both ends are fixed with the extension board about the ring gear back.

Preferably, the cleaning mechanism comprises a side plate, an embedded block and a sponge, wherein the embedded block is fixed on the back of the side plate, the rear end of the embedded block is tightly embedded into the right lower end of the shell, and the sponge is installed on the inner side of the side plate.

Preferably, a sealing cover is arranged at the bottom of the fixing box, and the fixing box is fixed with the sealing cover through bolts.

Preferably, both ends all are the bulge form about guide way and the ring gear back to both convex positions all fix with the extension board front end.

Preferably, the bottom of the sliding block is smooth, and the front end of the sliding block is fixed with the back of the sliding block.

Preferably, the top of the sponge and the bottom of the monitoring device body are in the same plane, and the top of the sponge is inclined.

Preferably, the fixed box is made of stainless steel.

Preferably, the sliding block is made of alloy steel.

The utility model has the advantages of as follows: the utility model discloses an improve and provide a water level reconnaissance monitoring devices for hydraulic engineering here, compare with equipment of the same type, have following improvement:

a water level reconnaissance monitoring devices for hydraulic engineering, through installing auxiliary device at the connecting plate front end, and the auxiliary device front end is connected with the mount of installing the monitoring devices main part, install drive mechanism in auxiliary device, drive mechanism carries out the transmission after driving motor drives the band pulley motion, can make the mount of front end carry out stable position control, and install clean mechanism in auxiliary device, install the sponge in the clean mechanism, when the mount takes the monitoring devices main part to remove in the clean mechanism of low order end, the sponge can clean the sensing head of monitoring devices main part bottom, reduce artificial operation, it is automatic effectual.

Drawings

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

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

FIG. 3 is a schematic view of the internal structure of the fixing box of the present invention;

FIG. 4 is a schematic view of the transmission mechanism of the present invention;

fig. 5 is a schematic structural view of the cleaning mechanism of the present invention.

Wherein: the device comprises a base-1, a support arm-2, a fixing piece-3, a cross arm-4, a connecting plate-5, a fixing frame-6, a monitoring device main body-7, an auxiliary device-8, a fixing box-81, a driving motor-82, a sliding chute-83, a sliding block-84, a cleaning mechanism-85, a shell-811, a driving pulley-812, a synchronous belt-813, a driven pulley-814, a connecting shaft-815, a transmission mechanism-816, a support plate-8161, a rotating piece-8162, a gear-8163, a connecting rod-8164, a sliding block-8165, a guide groove-8166, a gear ring-8167, a side plate-851, an embedded block-852 and a sponge-853.

Detailed Description

The present invention will be described in detail with reference to the accompanying fig. 1-5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, 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, the utility model provides a water level reconnaissance monitoring devices for hydraulic engineering through the improvement here, including base 1, base 1 top middle part vertical fixation has support arm 2, and the welding of support arm 2 preceding terminal surface upper end has mounting 3, and the mounting 3 front end is fixed with xarm 4, and xarm 4 front end meets with connecting plate 5, and mount 6 is installed in connecting plate 5 the place ahead, and the front end embedding has monitoring devices main part 7 in the mount 6, and connecting plate 5 front end meets with auxiliary device 8, and 8 front ends of auxiliary device are connected with mount 6.

Please refer to fig. 2, the utility model provides a water level reconnaissance monitoring devices for hydraulic engineering through the improvement here, auxiliary device 8 includes fixed case 81, driving motor 82, spout 83, slider 84 and clean mechanism 85, fixed case 81 back lower extreme is fixed with connecting plate 5, both ends are provided with driving motor 82 about the fixed case 81 back, spout 83 has been seted up to fixed case 81 right side front end, left end activity embedding has slider 84 in the spout 83, slider 84 front end and mount 6 are fixed, clean mechanism 85 is installed to fixed case 81 front end face right side lower extreme, fixed case 81 bottom is provided with sealed lid, and fixed case 81 passes through the bolt and fixes with sealed lid, be convenient for inspect and maintain inside, fixed case 81 adopts stainless steel, prevent to use for a long time and lead to the rusty ization.

Please refer to fig. 3, the utility model provides a water level investigation monitoring devices for hydraulic engineering through the improvement here, fixed case 81 includes casing 811, driving pulley 812, hold-in range 813, driven pulley 814, connecting axle 815 and drive mechanism 816, the upper left end is provided with driving pulley 812 in the casing 811, middle part meets with driving motor 82 front end output shaft in driving pulley 812, driving pulley 812 external diameter surface carries out synchronous rotation through hold-in range 813 and driven pulley 814, mid-mounting has connecting axle 815 in the driven pulley 814, the connecting axle 815 front end meets with drive mechanism 816.

Referring to fig. 4, the present invention provides a water level detecting and monitoring device for hydraulic engineering through improvement, a transmission mechanism 816 includes a supporting plate 8161, a rotating member 8162, a gear 8163, a connecting rod 8164, a sliding block 8165, a guiding slot 8166 and a gear ring 8167, the bottom of the supporting plate 8161 is fixed with the bottom of the casing 811, the upper end of the front end surface of the supporting plate 8161 is provided with the rotating member 8162, the inner right end of the rotating member 8162 is connected with a connecting shaft 815, the inner left end of the rotating member 8162 is hinged with the gear 8163, the inner middle of the gear 8163 is hinged with the connecting rod 8164, the inner right end of the connecting rod 8164 is hinged with the sliding block 8165, the lower end of the sliding block 8165 is movably embedded into the inner middle of the guiding slot 8166, the left and right ends of the back of the guiding slot 8166 are fixed with the supporting plate 8161, the outer diameter surface of the gear ring 8163 is meshed with the gear ring 8167, the, and both convex positions all fix with the extension board 8161 front end, conveniently carry out stable fixed, and sliding block 8165 bottom is smooth form to sliding block 8165 front end is fixed with the slider 84 back, and it is smooth to slide, and is stable, and sliding block 8165 adopts alloy steel material, and intensity is high, and the durability is strong.

Please refer to fig. 5, the utility model provides a water level reconnaissance monitoring devices for hydraulic engineering through the improvement here, clean mechanism 85 includes curb plate 851, embedded piece 852 and sponge 853, the curb plate 851 back is fixed with embedded piece 852, and the embedded piece 852 rear end closely imbeds to casing 811 right side lower extreme, sponge 853 is installed to curb plate 851 inboard, the sponge 853 top is the coplanar with monitoring devices main part 7 bottoms, and the sponge 853 top is the slope form, clean effectual, high efficiency.

The utility model provides a water level exploration and monitoring device for hydraulic engineering through improvement, and the working principle is as follows;

firstly, when the equipment needs to be used, the equipment is firstly placed at a position needing to be used, the position needs to be horizontal, and then the water level exploration monitoring work can be started by facing the bottom of the monitoring device main body 7 to the water surface;

secondly, if the position of the monitoring device main body 7 needs to be fine-adjusted, a user starts the driving motor 82 to work, an output shaft at the front end of the driving motor 82 drives an internal driving pulley 812 to rotate, the driving pulley 812 enables a driven pulley 814 to rotate through a synchronous belt 813, a connecting shaft 815 at the middle part in the driven pulley 814 enables a rotating part 8162 to rotate, the rotating part 8162 drives a gear 8163 to rotate in a gear ring 8167, then the front end of the gear 8163 enables a sliding block 8165 to slide through a connecting rod 8164, the sliding block 8165 can slide in a sliding groove 83, the front end of the sliding block 8165 is connected with a sliding block 84, and the front end of the sliding block 84 can drive the fixing frame 6 to enable the monitoring device main body 7 to adjust the position;

thirdly, if the sensing head at the bottom of the monitoring device main body 7 needs to be cleaned, the user can drive the sensing head through the transmission mechanism 816, so that the fixing frame 6 can be moved to the cleaning mechanism 85 at the rightmost end, and the sponge 853 in the cleaning mechanism 85 can clean the bottom of the sensing head.

The utility model discloses an improvement provides a water level reconnaissance monitoring devices for hydraulic engineering, through installing auxiliary device 8 at 5 front ends of connecting plate, and the 8 front ends of auxiliary device are connected with the mount 6 of installing monitoring devices main part 7, install drive mechanism 816 in auxiliary device 8, drive mechanism 816 drives the transmission after the band pulley motion by driving motor 82, can make the mount 6 of front end carry out stable position control, and install clean mechanism 816 in auxiliary device 8, install sponge 853 in the clean mechanism 816, when mount 6 takes monitoring devices main part 7 to move in the clean mechanism 816 of low-end member, sponge 853 can clean the sensing head of monitoring devices main part 7 bottom, reduce artificial operation, it is automatic effectual.

Claims (8)

1. A water level exploration monitoring device for hydraulic engineering comprises a base (1), wherein a support arm (2) is vertically fixed in the middle of the top end of the base (1), a fixing piece (3) is welded at the upper end of the front end face of the support arm (2), the front end of the fixing piece (3) is fixed with a cross arm (4), the front end of the cross arm (4) is connected with a connecting plate (5), a fixing frame (6) is installed in front of the connecting plate (5), and a monitoring device main body (7) is embedded into the front end in the fixing frame (6);

the method is characterized in that: still include auxiliary device (8), connecting plate (5) front end meets with auxiliary device (8), auxiliary device (8) front end is connected with mount (6), auxiliary device (8) are including fixed case (81), driving motor (82), spout (83), slider (84) and clean mechanism (85), fixed case (81) back lower extreme is fixed with connecting plate (5), both ends are provided with driving motor (82) about fixed case (81) back, spout (83) have been seted up to fixed case (81) right side front end, the activity embedding of left end has slider (84) in spout (83), slider (84) front end is fixed with mount (6), clean mechanism (85) are installed to fixed case (81) front end face right-hand member end.

2. The water level exploration monitoring device for hydraulic engineering of claim 1, wherein: fixed case (81) include casing (811), driving pulley (812), hold-in range (813), driven pulley (814), connecting axle (815) and drive mechanism (816), the upper left end is provided with driving pulley (812) in casing (811), middle part meets with driving motor (82) front end output shaft in driving pulley (812), driving pulley (812) external diameter surface carries out synchronous rotation through hold-in range (813) and driven pulley (814), mid-mounting has connecting axle (815) in driven pulley (814), connecting axle (815) front end meets with drive mechanism (816).

3. The water level exploration monitoring device for hydraulic engineering of claim 2, wherein: the transmission mechanism (816) comprises a support plate (8161), a rotating part (8162), a gear (8163), a connecting rod (8164), a sliding block (8165), a guide groove (8166) and a gear ring (8167), wherein the bottom of the support plate (8161) is fixed with the inner bottom of the shell (811), the upper end of the front end surface of the support plate (8161) is provided with the rotating part (8162), the inner right end of the rotating part (8162) is connected with the connecting shaft (815), the inner left end of the rotating part (8162) is hinged with the gear (8163), the inner middle part of the gear (8163) is hinged with the connecting rod (8164), the inner right end of the connecting rod (8164) is hinged with the sliding block (8165), the lower end of the sliding block (8165) is movably embedded into the inner middle part of the guide groove (8166), the left and right ends of the back surface of the guide groove (8166) are fixed with the support plate (8161), and the outer diameter surface of the, and the left and right ends of the back surface of the gear ring (8167) are fixed with the support plate (8161).

4. The water level exploration monitoring device for hydraulic engineering of claim 1, wherein: the cleaning mechanism (85) comprises a side plate (851), an embedded block (852) and sponge (853), wherein the embedded block (852) is fixed on the back surface of the side plate (851), the rear end of the embedded block (852) is tightly embedded into the right lower end of the shell (811), and the sponge (853) is installed on the inner side of the side plate (851).

5. The water level exploration monitoring device for hydraulic engineering of claim 1, wherein: the bottom of the fixed box (81) is provided with a sealing cover, and the fixed box (81) is fixed with the sealing cover through a bolt.

6. The water level exploration monitoring device for hydraulic engineering of claim 3, wherein: the left end and the right end of the back of the guide groove (8166) and the back of the gear ring (8167) are both convex, and the convex positions of the guide groove and the gear ring are fixed with the front end of the support plate (8161).

7. The water level exploration monitoring device for hydraulic engineering of claim 3, wherein: the bottom of the sliding block (8165) is smooth, and the front end of the sliding block (8165) is fixed with the back of the sliding block (84).

8. The water level exploration monitoring device for hydraulic engineering of claim 4, wherein: the top of the sponge (853) and the bottom of the monitoring device main body (7) are in the same plane, and the top of the sponge (853) is inclined.

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