CN207565793U - A kind of Buoys Release Device controlled for hydrologic monitoring - Google Patents

Abstract

The utility model discloses a kind of Buoys Release Device controlled for hydrologic monitoring,Including the first transmission mechanism,Second transmission mechanism,Moving trolley and buoy survey meter,First transmission mechanism includes the first warehouse,First rotating shaft,First steel wire rope,Second steel wire rope,Second shaft,Third steel wire rope and the first accumulator,Second transmission mechanism includes the second warehouse,Third shaft,4th steel wire rope and the second accumulator,Moving trolley includes connecting plate,Supporting leg,Placement mechanism and cylinder,Anti- sump is equipped in connecting plate,Third accumulator is equipped in anti-sump,Central processing unit,Signal receiver and drive module,Placement mechanism includes first and places bar and the second placement bar,Buoy survey meter includes survey meter ontology,Connecting shaft and placement disk,The beneficial effects of the utility model are,Structure novel,Practical function,Buoy comes off fairly simple,And buoy can reach designated position and come off,Store small volume,It is easy to carry and transport.

Description

A kind of Buoys Release Device controlled for hydrologic monitoring

Technical field

The utility model is related to Buoys Release Device controlled technical fields, and in particular to a kind of buoy for hydrologic monitoring is launched Device.

Background technology

Discharge measurement is the element task at hydrometric station, is the base for reflecting rivers water resource and river,lake and reservior water change procedure This data.The use of current meter measurement is the higher testing method of discharge measurement precision in flow velocity and steady depth condition.But In routine work, when be commonly encountered the having specific characteristics of some bursts, the situation of especially big regimen, adopted when floating material is more on the rivers water surface With float technique flow measurement.The buoy in technology is launched in operational process at present, and since steel wire rope is swung, buoy is easy to come off；Have When buoy be transported to the phenomenon that precalculated position is but difficult to come off or even occur to come off, lead to extend the test period, prominent When the tornado of hair breaks, it is impossible to measure data on flows in time, scientific basis is provided for flood-control and drought relief flood control and disaster reduction.

Utility model content

To solve the above problems, the utility model provides a kind of Buoys Release Device controlled for hydrologic monitoring, this practicality It is novel to be achieved through the following technical solutions.

A kind of Buoys Release Device controlled for hydrologic monitoring, including the first transmission mechanism, the second transmission mechanism, moving trolley and Buoy survey meter, first transmission mechanism include the first warehouse, first rotating shaft, the first steel wire rope, the second steel wire rope, second turn Axis, third steel wire rope and the first accumulator, the first rotating shaft are rotatably connected in the first warehouse, symmetrical affixed in first rotating shaft There are the first line wheel and the second line wheel, first rotating shaft is stretched out the affixed ratchet in one end of the first warehouse, is rotatably connected to outside the first warehouse Gag lever post corresponding with ratchet, the first warehouse surface are additionally provided with arc-shaped limit slot, are equipped with fastening bolt in the middle part of the gag lever post, tightly The bottom of fixing bolt is fallen in limiting slot, one end of first steel wire rope and the second steel wire rope respectively with the first line wheel and Two line wheels are affixed, and the free end of the first steel wire rope and the second steel wire rope is wrapped in the first line wheel and the second line wheel and stretches out first Outside warehouse, second shaft is rotatablely connected with the first warehouse and is arranged on the top of first rotating shaft, the first warehouse corresponding second The position of shaft is connected with the first motor, and the output shaft of first motor and the second shaft are affixed, and the middle part of the second shaft is consolidated Third line wheel is connected to, one end of the third steel wire rope and third line wheel are affixed, and the free end of third steel wire rope is wrapped in third In line wheel and the first warehouse is stretched out, first accumulator is fixed in the top of the first warehouse, and the first accumulator is to the first motor Power supply；Second transmission mechanism includes the second warehouse, third shaft, the 4th steel wire rope and the second accumulator, first steel The free end of cord and the second steel wire rope is symmetrically fixed in the bottom of the second warehouse, and the third shaft shaft is connected to the second storehouse In vivo, the corresponding third rotating shaft position of the second warehouse is connected with the second motor, and output shaft and the third shaft of second motor are consolidated It connects, the 4th line wheel is connected in the middle part of third shaft, one end of the 4th steel wire rope is fixed in the 4th line wheel, the 4th steel wire The free end of rope is wrapped in the 4th line wheel and stretches out outside the second warehouse, and second accumulator is fixed at the top of the second warehouse, Second accumulator powers to the second motor；The moving trolley includes connecting plate, supporting leg, placement mechanism and cylinder, the third The free end of steel wire rope and the 4th steel wire rope is respectively and fixedly connected to connecting plate both sides, and anti-sump is equipped in the connecting plate, described anti- Third accumulator, central processing unit, signal receiver and drive module are equipped in sump, the supporting leg is symmetrically fixed in connection Plate bottom, supporting leg bottom are equipped with the through-hole being connect with the first steel wire rope and the second steel cable sliding, and the placement mechanism includes First places bar and the second placement bar, and the first placement bar and the second placement bar are arranged side by side, and the length of the second placement bar is big In the length that first places bar, the first placement bar and supporting leg are affixed, and the second placement bar is hinged with supporting leg, and first places Semicircle placing groove is equipped on bar and the second placement bar, the cylinder is equipped with telescopic rod, and the telescopic rod and second place bar Free end it is affixed；The buoy survey meter includes survey meter ontology, connecting shaft and places disk, and the connecting shaft estimation is being visited Instrument bodies top is surveyed, the placement disk is fixed at the top of connecting shaft.

Further, the end of one end of the first warehouse of the first rotating shaft stretching is connected with crank.

Further, it is connected with spring between the end of the first placement bar and the second telescopic rod.

Further, the accumulator, signal receiver and drive module are electrically connected with central processing unit, the driving Module is also electrically connected with cylinder.

Further, the diameter when placing groove closes up is equal to the diameter of connecting shaft.

The beneficial effects of the utility model are structure novels, practical function, and buoy comes off fairly simple, and buoy can arrive It comes off up to designated position, stores small volume, it is easy to carry and transport.

Description of the drawings

It is required in being described below to specific embodiment in order to illustrate more clearly of the technical solution of the utility model The attached drawing used is briefly described, it should be apparent that, the accompanying drawings in the following description is only some implementations of the utility model Example, for those of ordinary skill in the art, without creative efforts, can also obtain according to these attached drawings Obtain other attached drawings.

Fig. 1：A kind of structure diagram of Buoys Release Device controlled for hydrologic monitoring described in the utility model；

Fig. 2：The structure diagram of first transmission mechanism described in the utility model；

Fig. 3：The structure diagram of second transmission mechanism described in the utility model；

Fig. 4：The structure diagram of moving trolley described in the utility model；

Fig. 5：The structure diagram of placement mechanism described in the utility model；

Fig. 6：The structure diagram of buoy survey meter described in the utility model；

Fig. 7：Third accumulator described in the utility model, central processing unit, signal receiver, drive module and cylinder electricity Road connection diagram.

Reference numeral is as follows：

1st, the first transmission mechanism, the 101, first warehouse, 102, first rotating shaft, the 1021, first line wheel, the 1022, second line wheel, 1023rd, ratchet, 1024, gag lever post, 1025, limiting slot.1026th, fastening bolt, 1027, crank, the 103, first steel wire rope, 104, Second steel wire rope, the 105, second shaft, the 1051, first motor, 1052, third line wheel, 106, third steel wire rope, 107, first stores Battery, the 2, second transmission mechanism, the 201, second warehouse, 202, third shaft, the 2021, second motor, the 2022, the 4th line wheel, 203rd, the 4th steel wire rope, the 204, second accumulator, 3, moving trolley, 301, connecting plate, 3011, third accumulator, 3012, centre Manage device, 3013, signal receiver, 3014, drive module, 302, supporting leg, 3021, through-hole, 303, placement mechanism, 3031, the One places bar, and 3032, second places bar, and 3033, placing groove, 3034, spring, 304, cylinder, 3041, telescopic rod, 4, buoy visits Survey instrument, 401, survey meter ontology, 402, connecting shaft, 403, place disk.

Specific embodiment

The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out It clearly and completely describes, it is clear that the described embodiments are only a part of the embodiments of the utility model rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are without creative efforts The all other embodiment obtained, shall fall within the protection scope of the present invention.

As shown in figs. 1-7, a kind of Buoys Release Device controlled for hydrologic monitoring is driven including the first transmission mechanism 1, second Mechanism 2, moving trolley 3 and buoy survey meter 4, the first transmission mechanism 1 include the first warehouse 101, first rotating shaft 102, the first steel wire The 103, second steel wire rope 104 of rope, the second shaft 105,106 and first accumulator 107 of third steel wire rope, first rotating shaft 102 rotate It is connected in the first warehouse 101, is symmetrically connected with the first line wheel 1021 and the second line wheel 1022 in first rotating shaft 102, first turn Axis 102 stretches out the affixed ratchet 1023 in one end of the first warehouse 101, is rotatably connected to outside the first warehouse 101 corresponding to ratchet 1023 Gag lever post 1024,101 surface of the first warehouse is additionally provided with arc-shaped limit slot 1025, and 1024 middle part of gag lever post is equipped with fastening bolt 1026, the bottom of fastening bolt 1026 is fallen in limiting slot 1025, one end of the first steel wire rope 103 and the second steel wire rope 104 It is affixed with the first line wheel 1021 and the second line wheel 1022 respectively, the free end winding of the first steel wire rope 103 and the second steel wire rope 104 It in the first line wheel 1021 and the second line wheel 1022 and stretches out outside the first warehouse 101,101 turns of the second shaft 105 and the first warehouse The dynamic top connected and be arranged on first rotating shaft 102, the position of 101 corresponding second shaft 105 of the first warehouse are connected with the first electricity Machine 1051, the output shaft of the first motor 1051 and the second shaft 105 are affixed, and the middle part of the second shaft 105 is connected with third line wheel 1052, one end of third steel wire rope 106 and third line wheel 1052 are affixed, and the free end of third steel wire rope 106 is wrapped in third line On wheel 1052 and the first warehouse 101 is stretched out, the first accumulator 107 is fixed in the top of the first warehouse 101, the first accumulator 107 It powers to the first motor 1051；Second transmission mechanism 2 includes the second warehouse 201, third shaft 202, the 4th steel wire rope 203, the The free end of two accumulators 204, the first steel wire rope 103 and the second steel wire rope 104 is symmetrically fixed in the bottom of the second warehouse 201, 202 shaft of third shaft is connected in the second warehouse 201, and 201 corresponding 202 position of third shaft of the second warehouse is connected with the second electricity Machine 2021, the output shaft and third shaft 202 of the second motor 2021 are affixed, and the middle part of third shaft 202 is connected with the 4th line wheel 2022, one end of the 4th steel wire rope 203 is fixed in the 4th line wheel 2022, and the free end of the 4th steel wire rope 203 is wrapped in the 4th It in line wheel 2022 and stretches out outside the second warehouse 201, the second accumulator 204 is fixed in 201 top of the second warehouse, the second accumulator 204 pair of second motor 2021 is powered；Moving trolley 3 includes connecting plate 301, supporting leg 302, placement mechanism 303 and cylinder 304, the The free end of three steel wire ropes 106 and the 4th steel wire rope 203 is respectively and fixedly connected to 301 both sides of connecting plate, waterproof is equipped in connecting plate 301 Storehouse, anti-sump is interior to be equipped with third accumulator 3011, central processing unit 3012, signal receiver 3013 and drive module 3014, branch Support leg 302 is symmetrically fixed in 301 bottom of connecting plate, and 302 bottom of supporting leg is equipped with and the first steel wire rope 103 and the second steel wire rope 104 through-holes 3021 being slidably connected, placement mechanism 303 include first and place the placement bar 3032 of bar 3031 and second, and first places Bar 3031 and second is placed bar 3032 and is arranged side by side, and the second length for placing bar 3032 is more than the first length for placing bar 3031, First placement bar 3031 and supporting leg 302 are affixed, and second places bar 3032 is hinged with supporting leg 302, and first places 3031 He of bar Semicircle placing groove 3033 is equipped on second placement bar 3032, cylinder 304 is equipped with telescopic rod 3041, telescopic rod 3041 and second The free end for placing bar 3032 is affixed；Buoy survey meter 4 includes survey meter ontology 401, connecting shaft 402 and places disk 403, even Spindle 402 is estimated at 401 top of survey meter ontology, places disk 403 and is fixed in 402 top of connecting shaft.

Preferably, the end of one end of first warehouse 101 of the stretching of first rotating shaft 102 is connected with crank 1027.

Preferably, it is connected with spring 3034 between the end of the first placement bar 3031 and the second telescopic rod 3041.

Preferably, accumulator, signal receiver 3013 and drive module 3014 are electrically connected with central processing unit 3012, are driven Dynamic model block 3014 is also electrically connected with cylinder 304.

Preferably, diameter when placing groove 3033 closes up is equal to the diameter of connecting shaft 402.

One specific embodiment of the utility model is：

During original state, the first steel wire rope 103, the second steel wire rope 104,106 and the 4th steel wire rope 203 of third steel wire rope divide It does not roll up in the first line wheel 1021, the second line wheel 1022,1052 and the 4th line wheel 2022 of third line wheel, the first transmission mechanism 1, Two transmission mechanisms 2 and moving trolley 3 are mutually drawn close, at this point, the storage small volume of device, convenient for the carrying and transport of device.

In use, the first transmission mechanism 1 and the second transmission mechanism 2 are separately fixed to two opposite banks in river, rotating crank 1027 make the first steel wire rope 103 and the second steel wire rope 104 be taken up in the first line wheel 1021 and the second line wheel 1022, unscrew at this time Fastening bolt 1026 simultaneously makes it be slided in limiting slot 1025, treats that gag lever post 1024 contacts simultaneously fixed ratchet wheel 1023 with ratchet 1023 During position, fastening bolt 1026 is tightened, at this point, the first steel wire rope 103 and the second steel wire rope 104 tense.

Starting the first motor 1051 rotates counterclockwise it, and moving trolley 3 is pulled and close to the first driver by third drawstring Structure 1, the connecting shaft 402 of buoy survey meter 4 are placed in placing groove 3033, are placed disk 403 and are located at 3033 top of placing groove, float Mark survey meter 4 is fixed on by placing disk 403 in placing groove 3033, closes the second motor of rear startup of the first motor 1051 2021, the second motor 2021, which rotates clockwise and passes through the 4th steel wire rope 203, pulls moving trolley 3 to advance, and moving to needs position When, placement mechanism 303, which is opened, launches buoy survey meter 4, and pulling on moving trolley 3 makes it close to the second transmission mechanism 2, can be with Recharge that buoy survey meter 4 is launched in 2 position of the second transmission mechanism, cycle carries out, and can launch multiple and different positions Buoy survey meter 4.

When moving trolley 3, which moves to, needs position, signal is sent out by signal generator, signal receiver 3013 receives Signal is simultaneously passed to central processing unit 3012 by signal, and central processing unit 3012 controls drive module 3014 that cylinder 304 is made to work Telescopic rod 3041 is extended, when telescopic rod 3041 extends, second places bar 3032 rotates around articulated position, and placing groove 3033 is beaten It opens, buoy survey meter 4 falls from placing groove 3033 and launched.

The preferred embodiment in the utility model disclosed above is only intended to help to illustrate the utility model.Preferred embodiment is simultaneously There is no the details that detailed descriptionthe is all, do not limit the specific embodiment that the utility model is only yet.Obviously, according to this specification Content, can make many modifications and variations.This specification is chosen and specifically describes these embodiments, be in order to preferably explain The principle and practical application of the utility model, so as to which skilled artisan be enable to be best understood by and utilize this practicality It is novel.The utility model is limited only by the claims and their full scope and equivalents.

Claims (5)

1. a kind of Buoys Release Device controlled for hydrologic monitoring, it is characterised in that：Including the first transmission mechanism, the second driver Structure, moving trolley and buoy survey meter, first transmission mechanism include the first warehouse, first rotating shaft, the first steel wire rope, the second steel Cord, the second shaft, third steel wire rope and the first accumulator, the first rotating shaft are rotatably connected in the first warehouse, first turn The first line wheel and the second line wheel are symmetrically connected on axis, first rotating shaft stretches out the affixed ratchet in one end of the first warehouse, the first warehouse Outer to be rotatably connected to gag lever post corresponding with ratchet, the first warehouse surface is additionally provided with arc-shaped limit slot, is set in the middle part of the gag lever post There is fastening bolt, the bottom of fastening bolt is fallen in limiting slot, one end difference of first steel wire rope and the second steel wire rope Affixed with the first line wheel and the second line wheel, the free end of the first steel wire rope and the second steel wire rope is wrapped in the first line wheel and the second line On wheel and to stretch out outside the first warehouse, second shaft is rotatablely connected with the first warehouse and is arranged on the top of first rotating shaft, the The position of corresponding second shaft of one warehouse is connected with the first motor, and the output shaft of first motor and the second shaft are affixed, the Third line wheel is connected in the middle part of two shafts, one end of the third steel wire rope and third line wheel are affixed, third steel wire rope from It is wrapped in third line wheel by end and stretches out the first warehouse, first accumulator is fixed in the top of the first warehouse, and first stores Battery powers to the first motor；Second transmission mechanism includes the second warehouse, third shaft, the 4th steel wire rope and the second electric power storage The free end of pond, first steel wire rope and the second steel wire rope is symmetrically fixed in the bottom of the second warehouse, and the third shaft turns For axis connection in the second warehouse, the corresponding third rotating shaft position of the second warehouse is connected with the second motor, the output of second motor Axis and third shaft are affixed, and the 4th line wheel is connected in the middle part of third shaft, and one end of the 4th steel wire rope is fixed in the 4th In line wheel, the free end of the 4th steel wire rope is wrapped in the 4th line wheel and stretches out outside the second warehouse, and second accumulator is affixed At the top of the second warehouse, the second accumulator powers to the second motor；The moving trolley includes connecting plate, supporting leg, placement mechanism And cylinder, the free end of the third steel wire rope and the 4th steel wire rope are respectively and fixedly connected to connecting plate both sides, set in the connecting plate There is anti-sump, third accumulator, central processing unit, signal receiver and drive module, the support are equipped in the anti-sump Leg is symmetrically fixed in connecting plate bottom, and supporting leg bottom is equipped with the through-hole being connect with the first steel wire rope and the second steel cable sliding, The placement mechanism includes first and places bar and the second placement bar, and the first placement bar and the second placement bar are arranged side by side, the Two length for placing bar are more than the first length for placing bar, and the first placement bar and supporting leg are affixed, and second places bar and branch Support leg is hinged, and is equipped with semicircle placing groove on the first placement bar and the second placement bar, the cylinder is equipped with telescopic rod, described to stretch The free end that contracting bar places bar with second is affixed；The buoy survey meter includes survey meter ontology, connecting shaft and places disk, institute Connecting shaft estimation is stated in survey meter bodies top, the placement disk is fixed at the top of connecting shaft.

2. a kind of Buoys Release Device controlled for hydrologic monitoring according to claim 1, it is characterised in that：Described first turn The end that axis stretches out one end of the first warehouse is connected with crank.

3. a kind of Buoys Release Device controlled for hydrologic monitoring according to claim 1, it is characterised in that：First places bar End and the second telescopic rod between be connected with spring.

4. a kind of Buoys Release Device controlled for hydrologic monitoring according to claim 1, it is characterised in that：The electric power storage Pond, signal receiver and drive module are electrically connected with central processing unit, and the drive module is also electrically connected with cylinder.

5. a kind of Buoys Release Device controlled for hydrologic monitoring according to claim 1, it is characterised in that：The placing groove Diameter when closing up is equal to the diameter of connecting shaft.