CN211652914U - Water conservancy is surveyed and is used water flow velocity monitoring device - Google Patents

Abstract

The utility model discloses a water conservancy survey water flow velocity monitoring device, which comprises a connecting line and a telescopic rod, the utility model discloses a strengthening mechanism is arranged at the front end of a controller, a rotating rod is pushed backwards to drive a rack to move backwards, the rack drives a gear to rotate, so that the gear drives a transmission post to rotate, a transmission block is driven by the transmission post to move leftwards, the transmission block drives a connecting cylinder and a T-shaped plate to move leftwards to clamp the connecting line at the left end of a fixed plate, thereby achieving the beneficial effects of further strengthening the connecting line and preventing the connecting line from falling off, the pushing block is pushed upwards to drive the connecting block to move upwards and a spring is stressed and compressed, then the rotating cylinder is rotated, the rotating screw rod adjusts the height of a supporting plate, then the pushing force to the pushing block is cancelled, so that a U-shaped clamping plate is pushed downwards by the elasticity of the spring to fix the rotating cylinder, the beneficial effects that the controller is supported quickly and stably and impurities are prevented from being stained on the controller are achieved.

Description

Water conservancy is surveyed and is used water flow velocity monitoring device

Technical Field

The utility model relates to a monitoring devices field of being correlated with specifically is a water conservancy is surveyed and is used water flow velocity monitoring device.

Background

Water conservancy construction is surveyed and is carried out the monitoring of water velocity with rivers velocity monitoring devices help, can help the user to know water conservancy information for the user can be more comprehensive know the water regime, conveniently carries out subsequent construction, prevents the calamity that rivers led to the fact, conveniently carries out safety in production simultaneously, need use special monitoring devices at the in-process that carries out the water conservancy monitoring.

When monitoring devices carries the mode that adopts interim equipment usually for conveniently carrying at the in-process that uses and carry, and the connection between the connecting wire is connected with the mode of pegging graft usually for the stability of connection is lower, and the in-process connecting wire that uses has the hidden danger that drops and causes the data interrupt, is infected with easily at the controller at the outdoor impurity of in-process of outdoor monitoring simultaneously, and present support frame receive and releases convenience and support stability all lower, brings inconvenience for work.

SUMMERY OF THE UTILITY MODEL

Consequently, for solving the aforesaid and carrying the mode that adopts interim equipment usually for conveniently carrying when monitoring devices uses and carrying, and the connection between the connecting wire is connected with the mode of pegging graft usually, makes the stability of connection lower, and the in-process connecting wire that uses has the hidden danger that drops and causes the data to break off, and the outdoor impurity of in-process of outdoor monitoring is infected with easily at the controller simultaneously, and present support frame receive and releases convenience and support stability all lower, brings inconvenience not enough for work, the utility model provides a water conservancy survey water flow velocity monitoring device here.

The utility model is realized by constructing a water flow velocity monitoring device for water conservancy exploration, which comprises a connecting wire, a telescopic rod reinforcing mechanism and a supporting mechanism, wherein the two ends of the connecting wire are respectively connected with the input end of a monitoring body and the output end of a controller, the telescopic rod is locked at the bottom of the monitoring body, the inner side of the telescopic rod is slidably provided with an installation pipe, the bottom end surface of the installation pipe is provided with a flow velocity sensor, the flow velocity sensor and the controller are electrically connected with the controller, the reinforcing mechanism is arranged at the front end of the controller, the supporting mechanism is arranged at the bottom of the controller, the reinforcing mechanism is composed of a shell, a rotating rod, a rack, a fixed block, a gear, a transmission column, a transmission block, a connecting cylinder, a T-shaped plate and a fixed plate, the shell is fastened at the right part of the front end surface of the flow velocity sensor, rack slidable mounting comes both ends middle part about the bull stick in casing inboard bottom right-hand member, fixed block symmetry lock solid has two, and the fixed block slides around the inboard of the linking groove that the terminal surface right part was seted up before the casing, the gear has the terminal surface middle part to rotate through pivot and casing inboard right-hand member and is connected, and gear top end face intermeshing, transmission post fixed connection is in gear left end face middle part, the transmission piece is locked in the connecting cylinder inner circle, and the transmission piece activity stretches into the transmission inslot side of seting up in transmission post side surface, the closure is in connecting cylinder left end face middle part after T template outside right-hand member passes casing left end face middle part, the fixed plate is installed in the preceding terminal surface left part of controller, and the opposite face covers the outside rear end of connecting wire completely about fixed plate and the T template.

Preferably, the supporting mechanism comprises a bottom shell, a rotating cylinder, a screw rod, a supporting plate, a connecting block, a spring, a pushing block and a U-shaped clamping plate, the bottom shell is locked on the bottom end face of the controller, the rear portions of the left end and the right end of the rotating cylinder are rotatably connected with the rear end of the inner side of the bottom shell through a rotating shaft, the side surface of the screw rod is in threaded connection with the inner ring of the rotating cylinder, the supporting plate is arranged on the front end face of the screw rod in an integrated structure, the connecting block is slidably mounted at the left end of the inner side of the bottom shell, the two ends of the spring are fixedly connected to the upper and lower opposite faces of the connecting block and the controller respectively, the pushing block slides up and down along the inner side of a sliding groove formed in the right end face of the bottom shell.

Preferably, the left end face of the T-shaped plate is provided with an arc-shaped groove, and the right end face of the fixing plate is provided with a corresponding arc-shaped groove.

Preferably, the rotating rod is in a T shape, and anti-skid grains are arranged at the front end of the outer side of the rotating rod.

Preferably, the right end of the front end face of the shell is provided with a middle hole, and the middle part of the inner side of the middle hole and the left and right ends of the inner side of the middle hole respectively correspond to the rotating rod and the two fixed blocks.

Preferably, the side surface of the transmission column is provided with a transmission groove corresponding to the transmission block, and the transmission grooves are communicated end to end.

Preferably, the right end of the outer side of the push block is in a body shape, and anti-skid grains are distributed at the rear ends of the upper end face and the lower end face of the push block.

Preferably, an anti-slip silica gel sheet is stuck to the end face of the inner side of the U-shaped clamping plate, and the thickness of the silica gel sheet is 0.2 cm.

Preferably, the support plate is made of engineering plastics.

Preferably, the push block is made of aluminum alloy.

The utility model has the advantages of as follows: the utility model discloses an improve and provide a water conservancy survey water flow velocity monitoring device here, compare with equipment of the same type, have following improvement:

the method has the advantages that: a water conservancy is surveyed and is used water flow velocity monitoring device, the utility model discloses a set up reinforcing mechanism at the controller front end, drive the rack rearward movement through promoting the bull stick backward, and the rack then drives gear revolve for the gear drives the transmission post and rotates, and the transmission piece removes left under the drive of transmission post, and the transmission piece drives connecting cylinder and T template left movement simultaneously and presss from both sides the left end at the fixed plate with the connecting wire clamp, has reached and has further consolidated the connecting wire, prevents the beneficial effect that the connecting wire drops.

The advantages are two: a water conservancy is surveyed and is used velocity of water flow monitoring devices, the utility model discloses a supporting mechanism has been set up in the controller bottom, drives the connecting block rebound and the compression of spring atress through upwards promoting the ejector pad, then makes and rotates a section of thick bamboo and rotate to the screw rod highly adjusts the backup pad, then the cancellation is to the thrust of ejector pad, it is fixed to rotate a section of thick bamboo for U type splint receive the elasticity downstream of spring, it supports the controller to have reached the rapid stabilization, prevent to be stained with the beneficial effect of impurity on the controller.

Drawings

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

fig. 2 is a schematic top view of the cross-sectional structure of the reinforcing mechanism of the present invention;

FIG. 3 is a schematic view of the right sectional structure of the supporting mechanism of the present invention;

fig. 4 is an enlarged schematic view of the structure at a in fig. 3 according to the present invention;

fig. 5 is a schematic view of the connection structure of the push block of the present invention.

Wherein: the device comprises a connecting wire-1, a telescopic rod-2, a monitoring body-3, an installation pipe-4, a flow velocity sensor-5, a controller-6, a reinforcing mechanism-7, a supporting mechanism-8, a shell-71, a rotating rod-72, a rack-73, a fixed block-74, a gear-75, a transmission column-76, a transmission block-77, a connecting cylinder-78, a T-shaped plate-79, a fixed plate-710, a bottom shell-81, a rotating cylinder-82, a screw rod-83, a supporting plate-84, a connecting block-85, a spring-86, a push block-87 and a U-shaped clamping plate-88.

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.

The utility model provides a water conservancy survey water flow velocity monitoring device through the improvement, including connecting wire 1, telescopic link 2 reinforcing mechanism 7 and supporting mechanism 8, connecting wire 1 both ends are connected respectively in monitoring body 3 input and controller 6 output, telescopic link 2 lock is fixed in monitoring body 3 bottom, and telescopic link 2 inboard slidable mounting has installation pipe 4, installation pipe 4 bottom end face installs flow velocity sensor 5, flow velocity sensor 5 and controller 6 carry out the electricity with controller 6, reinforcing mechanism 7 sets up in controller 6 front end, supporting mechanism 8 sets up in controller 6 bottom, reinforcing mechanism 7 is by casing 71, bull stick 72, rack 73, fixed block 74, gear 75, drive post 76, drive block 77, connecting cylinder 78, T template 79 and fixed plate 710 constitute, casing 71 fastens in the front end face right part of flow velocity sensor 5, bull stick 72 passes behind casing 71 front end face right-hand member and is connected with rack 73 front end face middle part rotation, the rack 73 is slidably mounted at the right end of the bottom of the inner side of the shell 71, the fixed blocks 74 are symmetrically locked with two middle parts of the left and right ends of the rotating rod 72, the fixed blocks 74 slide back and forth along the inner side of a connecting groove formed in the right part of the front end surface of the shell 71 to fix the position of the rotating rod 72, the middle part of the end surface of the gear 75 is rotatably connected with the right end of the inner side of the shell 71 through a rotating shaft, the gear 75 is meshed with the top end surface of the gear 75, the transmission post 76 is fixedly connected with the middle part of the left end surface of the gear 75, the transmission block 77 is locked in the inner ring of the connecting cylinder 78, the transmission block 77 movably extends into the inner side of the transmission groove formed in the side surface of the transmission post 76 to drive the T-shaped plate 79 to move, the right end of the outer side of the T-shaped plate 79 passes through the middle part of the left end surface of the shell, the connecting wire 1 is conveniently and stably clamped.

Further, the supporting mechanism 8 is composed of a bottom case 81, a rotating cylinder 82, a screw 83, a supporting plate 84, a connecting block 85, a spring 86, a pushing block 87 and a U-shaped clamping plate 88, the bottom case 81 is locked on the bottom end face of the controller 6, the rear portions of the left and right ends of the rotating cylinder 82 are rotatably connected with the rear end of the inner side of the bottom case 81 through a rotating shaft, the side surface of the screw 83 is in threaded connection with the inner ring of the rotating cylinder 82, the supporting plate 84 is arranged on the front end face of the screw 83 in an integrated structure, the connecting block 85 is slidably mounted at the left end of the inner side of the bottom case 81, the two ends of the spring 86 are respectively and fixedly connected with the connecting block 85 and the upper and lower opposite faces of the controller 6, so that the connecting block 85 can be reset, the pushing block 87 slides up and down along the inner side of a sliding, and the inner side of the U-shaped clamp plate 88 is fitted to the outer top end of the rotary cylinder 82 so as to fix the position of the rotary cylinder 82.

Further, an arc-shaped groove is formed in the left end face of the T-shaped plate 79, and a corresponding arc-shaped groove is formed in the right end face of the fixing plate 710, so that the connecting line 1 can be placed more stably.

Further, the rotating rod 72 is in a shape of a T, and the front end of the outer side of the rotating rod 72 is provided with anti-slip threads to prevent sliding in the rotating process.

Furthermore, a middle hole is formed in the right end of the front end face of the shell 71, and the middle of the inner side of the middle hole and the left and right ends of the inner side of the middle hole respectively correspond to the rotating rod 72 and the two fixed blocks 74, so that the rotating rod 72 and the fixed blocks 74 can slide conveniently.

Furthermore, a transmission groove corresponding to the transmission block 77 is formed in the side surface of the transmission column 76, and the transmission groove is through from end to end, so that the transmission block 77 is conveniently driven to move.

Furthermore, the right end of the outer side of the push block 87 is in a shape of a body, and anti-slip threads are distributed at the rear ends of the upper end face and the lower end face of the push block 87 to prevent the push block 87 from sliding in the process of pushing.

Furthermore, an anti-slip silica gel sheet is pasted on the end face of the inner side of the U-shaped clamping plate 88, and the thickness of the silica gel sheet is 0.2cm, so that the support is more stable.

Furthermore, the support plate 84 is made of engineering plastics, so that the rigidity is high and the weight is moderate.

Furthermore, the pushing block 87 is made of aluminum alloy, so that the pushing block is light and not easy to corrode.

The utility model provides a water conservancy surveying water flow velocity monitoring device through improvement, and the working principle is as follows;

firstly, the whole device is taken out of the protection box, the connecting line 1 is connected to a designated position on the controller 6, then the rotating rod 72 is pushed backwards to drive the rack 73 and the fixed block 74 to move backwards, the rack 73 drives the gear 75 to rotate, the gear 75 drives the transmission post 76 to rotate, the transmission block 77 is driven by the transmission post 76 to move leftwards, the transmission block 77 drives the connecting cylinder 78 and the T-shaped plate 79 to move leftwards to clamp the connecting line 1 at the left end of the fixed plate 710, and the rotating rod 72 is rotated simultaneously, so that the rotating rod 72 drives the fixed block 74 to rotate and joint on the inner front end face of the shell 71;

secondly, moving the mounting pipe 4 outwards to drive the flow velocity sensor 5 to move, informing the controller 6 to start the monitoring body 3 and the flow velocity sensor 5, inserting the flow velocity sensor 5 into the fluid to be detected, monitoring the flow velocity of the fluid through the flow velocity sensor 5, transmitting the detection result to the controller 6, and displaying the detection result through a display screen on the controller 6;

thirdly, when the controller is required to be supported, the pushing block 87 can be pushed upwards to drive the connecting block 85 to move upwards, the spring 86 is stressed and compressed, then the rotating cylinder 82 rotates, the rotating screw 83 is used for adjusting the height of the supporting plate 84, then the pushing force of the pushing block 87 is cancelled, so that the U-shaped clamping plate 88 is pushed downwards by the elastic force of the spring 86 to fix the rotating cylinder 82, and the controller 6 is supported.

The utility model provides a water conservancy survey water flow velocity monitoring device through improving, drive rack 73 and fixed block 74 backward movement through promoting the bull stick 72 backward, and rack 73 drives gear 75 and rotates, make gear 75 drive transmission post 76 rotate, and transmission block 77 moves left under the drive of transmission post 76, transmission block 77 drives connecting cylinder 78 and T template 79 to move left simultaneously and presss from both sides the connecting wire 1 at the left end of fixed plate 710, rotate bull stick 72 simultaneously, make bull stick 72 drive fixed block 74 rotate and laminate on the inboard front end face of casing 71, reach and further consolidate connecting wire 1, the beneficial effect of preventing the connecting wire from coming off, drive connecting block 85 to move upwards and spring 86 atress compression through pushing up the ejector pad 87, then make the rotating cylinder 82 rotate, and rotate the screw rod 83 and adjust the height of backup pad 84, then cancel the thrust to ejector pad 87, make U type splint 88 receive the elasticity downstream of spring 86 to be fixed with a section of thick bamboo 82 of rotating, realize the support to controller 6, reached fast and stable and supported controller 6, prevent to be stained with the beneficial effect of impurity on the controller.

The basic principle and the main characteristics of the utility model and the advantages of the utility model have been shown and described above, and the utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the record of the description with the drawing, and the concrete connection mode of each part all adopts conventional means such as ripe bolt rivet among the prior art, welding, and machinery, part and equipment all adopt prior art, conventional model, and conventional connection mode in the prior art is adopted in addition to circuit connection, and the details are not repeated here.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. A water flow velocity monitoring device for water conservancy surveying comprises a connecting line (1) and a telescopic rod (2), wherein two ends of the connecting line (1) are respectively connected to an input end of a monitoring body (3) and an output end of a controller (6), the telescopic rod (2) is fixedly locked at the bottom of the monitoring body (3), an installation pipe (4) is slidably installed on the inner side of the telescopic rod (2), a flow velocity sensor (5) is installed on the bottom end face of the installation pipe (4), and the flow velocity sensor (5) and the controller (6) are electrically connected with the controller (6);

the method is characterized in that: the device is characterized by further comprising a reinforcing mechanism (7) and a supporting mechanism (8), wherein the reinforcing mechanism (7) is arranged at the front end of the controller (6), the supporting mechanism (8) is arranged at the bottom of the controller (6), the reinforcing mechanism (7) is composed of a shell (71), a rotating rod (72), a rack (73), a fixed block (74), a gear (75), a transmission column (76), a transmission block (77), a connecting cylinder (78), a T-shaped plate (79) and a fixed plate (710), the shell (71) is fastened to the right portion of the front end face of the flow velocity sensor (5), the rotating rod (72) penetrates through the right end of the front end face of the shell (71) and is rotatably connected with the middle portion of the front end face of the rack (73), the rack (73) is slidably mounted at the right end of the inner side of the shell (71), the fixed block (74) is symmetrically locked with two middle portions of the left end and the right end of the rotating rod (72), and the fixed block (74) slides back, gear (75) have the terminal surface middle part to rotate with casing (71) inboard right-hand member through the pivot and be connected, and gear (75) top terminal surface intermeshing, transmission post (76) fixed connection is in gear (75) left end face middle part, transmission piece (77) closure in connecting cylinder (78) inner circle, and transmission piece (77) activity stretches into the transmission groove inboard of seting up in transmission post (76) side surface, closure in connecting cylinder (78) left end face middle part behind casing (71) left end face middle part is passed to T template (79) outside right-hand member, terminal surface left part before controller (6) is installed in fixed plate (710), and the opposite face covers in connecting wire (1) outside rear end completely about fixed plate (710) and T template (79).

2. The water conservancy survey water flow velocity monitoring device of claim 1, characterized in that: the supporting mechanism (8) is composed of a bottom shell (81), a rotating cylinder (82), a screw rod (83), a supporting plate (84), a connecting block (85), a spring (86), a pushing block (87) and a U-shaped clamping plate (88), the bottom shell (81) is locked on the bottom end face of the controller (6), the rear parts of the left end and the right end of the rotating cylinder (82) are rotatably connected with the rear end of the inner side of the bottom shell (81) through a rotating shaft, the side surface of the screw rod (83) is in threaded connection with the inner ring of the rotating cylinder (82), the supporting plate (84) is arranged on the front end face of the screw rod (83) in an integrated structure, the connecting block (85) is slidably mounted at the left end of the inner side of the bottom shell (81), the two ends of the spring (86) are respectively and fixedly connected to the upper and lower opposite surfaces of the connecting block (85) and the controller (6), the pushing block (87) slides up and down along the inner side of, u type splint (88) are installed in connecting block (85) bottom end face, and laminate in a rotation section of thick bamboo (82) outside top in U type splint (88) inboard.

3. The water conservancy survey water flow velocity monitoring device of claim 1, characterized in that: the left end face of the T-shaped plate (79) is provided with an arc-shaped groove, and the right end face of the fixing plate (710) is provided with a corresponding arc-shaped groove.

4. The water conservancy survey water flow velocity monitoring device of claim 1, characterized in that: the rotating rod (72) is in a T shape, and anti-skid grains are arranged at the front end of the outer side of the rotating rod (72).

5. The water conservancy survey water flow velocity monitoring device of claim 1, characterized in that: a middle hole is formed in the right end of the front end face of the shell (71), and the middle of the inner side of the middle hole and the left and right ends of the inner side of the middle hole respectively correspond to the rotating rod (72) and the two fixing blocks (74).

6. The water conservancy survey water flow velocity monitoring device of claim 1, characterized in that: the side surface of the transmission column (76) is provided with a transmission groove corresponding to the transmission block (77), and the transmission grooves are communicated end to end.

7. A water flow velocity monitoring device for water conservancy surveys according to claim 2, characterized in that: the right end of the outer side of the push block (87) is in a body shape, and anti-skid grains are distributed at the rear ends of the upper end face and the lower end face of the push block (87).

8. A water flow velocity monitoring device for water conservancy surveys according to claim 2, characterized in that: an anti-slip silica gel sheet is stuck to the end face of the inner side of the U-shaped clamping plate (88), and the thickness of the silica gel sheet is 0.2 cm.

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