CN110160831A

CN110160831A - A kind of antiwind underwater sampler for quickly removing water plant

Info

Publication number: CN110160831A
Application number: CN201910578697.3A
Authority: CN
Inventors: 朱晓凤
Original assignee: Xinchang Cichang Electronic Technology Co Ltd
Current assignee: Xinchang Cichang Electronic Technology Co Ltd
Priority date: 2019-06-28
Filing date: 2019-06-28
Publication date: 2019-08-23

Abstract

The invention discloses a kind of antiwind underwater samplers for quickly removing water plant, including sampler main body, bilateral symmetry is equipped with mobile cavity in the sampler main body, the mobile cavity roof connection is equipped with spring cavity, the mobile cavity bottom wall connection is equipped with compensated cavity, the first motor starting drives the power rail rotation in left side, the power rail in left side passes through the first bevel gear, the second bevel gear and the drive rod drive the power rail rotation on right side, under the idle state of cutting wheel, cutting wheel is placed in mobile cavity, cutting wheel can be made not wound by water plant in idle situation, guarantee that cutting wheel can operate at any time, after soil enters sampling mechanism, the block of upper and lower two sides can be close to each other, soil gear is being entered in chamber and acquisition cavity, it is intracavitary that fixture block can be caught in card, prevent limited block from moving backward Soil is released into vasculum.

Description

A kind of antiwind underwater sampler for quickly removing water plant

Technical field

The present invention relates to underwater sampler field, specially a kind of antiwind underwater sampler for quickly removing water plant.

Background technique

In deeper water, detection directly manually can not be sampled to water-bed soil, need to sample using to underwater Device when underwater sampler moves in water, may be wound by water plant, so that underwater sampler can not move, need to consume Take huge manpower and material resources to go to fetch underwater sampler, device of the general underwater sampler with removal water plant, and will The device of removal water plant is exposed at the outside of underwater sampler, leads to underwater sampler in the process of moving, removes the dress of water plant Setting may also be wound by water plant, so that the device of removal water plant is blocked by water plant and can not be operated.

Summary of the invention

The purpose of the present invention is to provide a kind of antiwind underwater samplers for quickly removing water plant, for overcoming the prior art In drawbacks described above.

The antiwind underwater sampler for quickly removing water plant of one kind of embodiment according to the present invention, including sampler main body, Bilateral symmetry is equipped with mobile cavity in the sampler main body, and the mobile cavity roof connection is equipped with spring cavity, the mobile cavity bottom Wall connection is equipped with compensated cavity, and be slidably installed movable block between the compensated cavity and the spring cavity, is equipped with and slides in the movable block Chamber is moved, be slidably installed cutting box in the sliding cavity, and cutting chamber is equipped in the cutting box, and inner wall is interior on rear side of the cutting chamber turns Dynamic installation runs through the cutter bar of the cutting box trailing flank, and cutting wheel, the cutter bar is fixedly mounted in the cutter bar trailing flank First gear is fixedly mounted in leading flank, rack gear is fixedly mounted between the sliding cavity roof and bottom wall, the rack gear is cut with described It cuts case to be slidably installed, the first gear is engaged with the rack gear, is equipped between the movable block of the left and right sides described in driving The mobile mechanism that cutting box moves up and down, the mobile mechanism is when driving the cutting box to move up and down, and described first Gear is by the racks turn, so that the cutter bar and cutting wheel rotation, the cutting wheel is to being wrapped in described adopt Water plant in sample device main body is cut；

The pushing mechanism that the movable block can be pushed to move left and right is equipped with above the mobile mechanism, the pushing mechanism moves Power is provided by the mobile mechanism, and the sampler main body trailing flank is equipped with the sampling mechanism that can be sampled.

On that basis of the above technical scheme, power part, the power part is fixedly mounted in the sampler main body bottom surface The sampler main body can be driven to move under water.

On that basis of the above technical scheme, the mobile mechanism includes the power cavity being arranged in below the sliding cavity, left First motor is fixedly mounted in the power cavity bottom wall of side, rotational installation runs through the power cavity top in the sliding cavity roof The power rail of wall, the top surface that the power rail in left side extends downwardly the output shaft upward with the first motor are fixedly connected, The power rail and the cutting box screw thread are installed, and are located in the power cavity on the power rail and the first cone tooth is fixedly mounted It takes turns, engagement chamber, the intracavitary rotational installation drive rod of engagement, the drive rod left side is equipped between the compensated cavity of the left and right sides The right side extends through the engagement chamber or so inner wall, and bilateral symmetry is equipped with limit chamber, sliding in the limit chamber in the drive rod Gag lever post is installed, the gag lever post and the movable block are rotatablely installed, and fixed peace in the power cavity is located on the gag lever post Second bevel gear is filled, the second bevel gear is engaged with the first bevel gear.

On that basis of the above technical scheme, the pushing mechanism includes being fixedly mounted on the drive rod to be located at described nibble Intracavitary third hand tap gear is closed, is equipped with push chamber above the engagement chamber, the push chamber is connected to the mobile cavity, described to push away It is rotatablely installed rotating bar in dynamic chamber roof, the rotating bar extends downwardly through the engagement chamber roof, the engagement bottom of chamber face The 4th bevel gear is fixedly mounted, the 4th bevel gear engages with the third hand tap gear, is slidably installed and pushes away in the push chamber Motion block, the pushing block and the rotating bar screw thread are installed, and connecting plate, the connecting plate and institute is fixedly mounted on the movable block State push chamber to be slidably installed, be fixedly mounted the first spring between the movable block and the compensated cavity, the movable block with it is described Second spring is fixedly mounted between spring cavity.

On that basis of the above technical scheme, the sampling mechanism include be arranged in the sampler main body trailing flank up and down Symmetrical thread cavity, be slidably installed in the thread cavity threaded block, and the second electricity is fixedly mounted in the thread cavity bottom wall of downside Threaded rod is fixedly mounted in machine, the top surface of the upward output shaft of the sampler main body, and the threaded rod extends upwardly to upside In the thread cavity roof, the threaded block and the threaded rod screw thread are installed, the threaded block screw threads of upper and lower two sides on the contrary, Hinge bar is hingedly installed in the threaded block trailing flank, hingedly installs vasculum between the hinge bar of upper and lower two sides.

On that basis of the above technical scheme, acquisition cavity is equipped in the vasculum, be slidably installed power in the acquisition cavity Block, is fixedly mounted third spring between the power block leading flank and the acquisition cavity front inner wall, on rear side of the acquisition cavity in Wall connection is equipped with the entrance chamber of opening backward, the power block leading flank fixed installation limited block symmetrical above and below, the limited block It is slidably installed with the vasculum, two sides connection is equipped with gear cavity to the acquisition cavity up and down, rotational installation the in the gear cavity Two gears, the second gear are engaged with the limited block, and the gear cavity connection is equipped with driven chamber, the driven intracavitary sliding Installation sliding block, the sliding shoe are engaged with the second gear, and inner wall connection is equipped with connecting cavity on rear side of the driven chamber, described Connection is equipped with block chamber on rear side of connecting cavity, and the block chamber is connected to described into chamber, the intracavitary block that is slidably installed of the block, Connecting rod is hingedly installed between the block and the sliding shoe.

On that basis of the above technical scheme, symmetrical above and below in the sampler main body be equipped with admittedly is located on front side of the vasculum Determine chamber, be slidably installed fixture block in the lock chamber, and the 4th spring is fixedly mounted between the fixture block and the lock chamber, described solid Determine chamber side and be equipped with button cavities, be slidably installed button in the button cavities, and the button is fixedly connected with the fixture block, the limit Card chamber is equipped in the block of position, it is intracavitary that the fixture block can be caught in the card.

On that basis of the above technical scheme, the sampler main body top surface is taper, and the sampler main body can when mobile So that water plant is mobile toward the left and right sides, it can prevent to a certain extent the sampler main body from being wound by water plant.

The beneficial effects of the present invention are: cutting wheel is placed on mobile cavity under the idle state of cutting wheel by the present invention It is interior, cutting wheel can be made not wound by water plant in idle situation, guarantee that cutting wheel can operate at any time, as sampler master After body is wound by water plant, the first motor starting in mobile mechanism drives pushing block to move up, so that the movement of the left and right sides Block is located remotely from each other, and the cutting wheel of the left and right sides is also located remotely from each other, and the cutting wheel of the left and right sides is moved to outside sampler main body, to twining The water plant being wound in sampler main body carries out cutting removal, and after soil enters sampling mechanism, the block of upper and lower two sides can be leaned on mutually Closely, soil is kept off and is being entered in chamber and acquisition cavity, it is intracavitary that fixture block can be caught in card, prevents limited block from moving backward to release in soil and adopt Header is worthy to be popularized.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the invention；

Fig. 2 is the schematic cross-sectional view in the direction A-A in Fig. 1 of the present invention；

Fig. 3 is the schematic cross-sectional view in the direction B-B in Fig. 1 of the present invention；

Fig. 4 is the forward sight structural schematic diagram of pushing block in Fig. 1 of the present invention；

Fig. 5 is the enlarged diagram in Fig. 1 of the present invention at C；

Fig. 6 is the enlarged diagram in Fig. 2 of the present invention at D；

Fig. 7 is the enlarged diagram in Fig. 2 of the present invention at E；

Fig. 8 is the state diagram when present invention removes water plant；

Fig. 9 is state diagram when collecting sample of the present invention is completed.

Specific embodiment

Below with reference to Fig. 1-9, the present invention is described in detail, for sake of convenience, now such as to hereafter described orientation regulation Under: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.

Referring to Fig.1-9, the antiwind underwater sampler for quickly removing water plant of one kind of embodiment according to the present invention, including adopt Sample device main body 14, the interior bilateral symmetry of the sampler main body 14 are equipped with mobile cavity 19, and 19 roof of the mobile cavity connection is equipped with bullet Spring chamber 16,19 bottom wall of the mobile cavity connection are equipped with compensated cavity 27, peace are slided between the compensated cavity 27 and the spring cavity 16 Movable block 11 is filled, sliding cavity 18 is equipped in the movable block 11, be slidably installed cutting box 21 in the sliding cavity 18, the cutting Cutting chamber 22 is equipped in case 21, rotational installation runs through the cutting of 21 trailing flank of cutting box in the cutting 22 rear side inner wall of chamber Cutting wheel 24 is fixedly mounted in bar 25,25 trailing flank of cutter bar, and first gear 23 is fixedly mounted in 25 leading flank of cutter bar, Rack gear 20 is fixedly mounted between 18 roof of sliding cavity and bottom wall, the rack gear 20 is slidably installed with the cutting box 21, institute It states first gear 23 to engage with the rack gear 20, is equipped with and is driven on the cutting box 21 between the movable block 11 of the left and right sides The mobile mechanism 101 of lower movement, the mobile mechanism 101 is when driving the cutting box 21 to move up and down, and described first Gear 23 is rotated by the rack gear 20, so that the cutter bar 25 and the cutting wheel 24 rotate, the cutting wheel 24 is to twining The water plant being wound in the sampler main body 14 is cut, and the movement can be pushed by being equipped with above the mobile mechanism 101 The power of the pushing mechanism 102 that block 11 moves left and right, the pushing mechanism 102 is provided by the mobile mechanism 101, the sampling 14 trailing flank of device main body is equipped with the sampling mechanism 103 that can be sampled.

In addition, in one embodiment, power part 32, the power part is fixedly mounted in 14 bottom surface of sampler main body Part 32 can drive the sampler main body 14 to move under water.

In addition, in one embodiment, the mobile mechanism 101 includes the power cavity being arranged in below the sliding cavity 18 28,28 bottom wall of the power cavity in left side is interior to be fixedly mounted first motor 30, and rotational installation runs through in 18 roof of sliding cavity The power rail 15 of 28 roof of power cavity, the power rail 15 in left side extend downwardly and upward defeated of the first motor 30 The top surface of shaft is fixedly connected, and the power rail 15 is installed with 21 screw thread of cutting box, is located on the power rail 15 described First bevel gear 29 is fixedly mounted in power cavity 28, engagement chamber 43 is equipped between the compensated cavity 27 of the left and right sides, it is described to nibble It closes and is rotatablely installed drive rod 66 in chamber 43, the drive rod 66 or so extends through 43 or so the inner wall of engagement chamber, the biography Bilateral symmetry is equipped with limit chamber 33 in lever 66, and be slidably installed gag lever post 34, the gag lever post 34 and institute in the limit chamber 33 The rotational installation of movable block 11 is stated, is located in the power cavity 28 on the gag lever post 34 and second bevel gear 31 is fixedly mounted, it is described Second bevel gear 31 is engaged with the first bevel gear 29, when there is sink to be wrapped in the sampler main body 14, described The starting of one motor 30 drives the power rail 15 in left side to rotate, and the power rail 15 in left side passes through the first bevel gear 29, the second bevel gear 31 and the drive rod 66 drive the power rail 15 on right side to rotate, so that about 21 cutting box It is mobile.

In addition, in one embodiment, the pushing mechanism 102 includes being fixedly mounted on the drive rod 66 to be located at institute The third hand tap gear 42 in engagement chamber 43 is stated, push chamber 35, the push chamber 35 and the shifting are equipped with above the engagement chamber 43 Dynamic chamber 19 is connected to, and rotating bar 13 is rotatablely installed in 35 roof of push chamber, and the rotating bar 13 extends downwardly through described nibble 43 roof of chamber is closed, the 4th bevel gear 44 is fixedly mounted in 43 bottom surface of engagement chamber, and the 4th bevel gear 44 is bored with the third Gear 42 engages, and be slidably installed pushing block 36 in the push chamber 35, and the pushing block 36 is installed with 13 screw thread of rotating bar, Connecting plate 12 is fixedly mounted on the movable block 11, the connecting plate 12 is slidably installed with the push chamber 35, the movable block The first spring 26 is fixedly mounted between 11 and the compensated cavity 27, is fixedly mounted between the movable block 11 and the spring cavity 16 Second spring 17, when the drive rod 66 rotation, the drive rod 66 passes through the third hand tap gear 42 and the 4th cone The engagement of gear 44 drives the rotating bar 13 to rotate, and the rotation of rotating bar 13 drives the pushing block 36 to move up, institute Stating pushing block 36 pushes the connecting plate 12 of the left and right sides to be located remotely from each other, so that the movable block 11 of the left and right sides is mutually remote From the cutting wheel 24 is stretched out outside the sampler main body 14, and when the cutting wheel 24 does not work, the cutting wheel 24 is located at In the mobile cavity 19, it can prevent the cutting wheel 24 from being wound by water plant.

In addition, in one embodiment, the sampling mechanism 103 includes that 14 trailing flank of sampler main body is arranged in Thread cavity 39 symmetrical above and below, be slidably installed in the thread cavity 39 threaded block 38, solid in 39 bottom wall of the thread cavity of downside Dingan County fills the second motor 41, and threaded rod 37, the screw thread is fixedly mounted in the top surface of the upward output shaft of the sampler main body 14 Bar 37 extends upwardly in 39 roof of the thread cavity of upside, and the threaded block 38 is installed with 37 screw thread of threaded rod, on 38 screw thread of the threaded block of lower two sides is on the contrary, hinge bar 40, the institute of upper and lower two sides are hingedly installed in 38 trailing flank of the threaded block It states and vasculum 51 is hingedly installed between hinge bar 40, when the sampling mechanism 103 is sampled, second motor 41 starts The threaded rod 37 is driven to rotate, the threaded rod 37 rotates so that the threaded block 38 of two sides is close to each other up and down, up and down The threaded block 38 of two sides drives the vasculum 51 to move backward by the hinge bar 40.

In addition, in one embodiment, acquisition cavity 55 being equipped in the vasculum 51, is slidably installed in the acquisition cavity 55 Third spring 54 is fixedly mounted between 55 front inner wall of 46 leading flank of power block and the acquisition cavity for power block 46, described The connection of 55 rear side inner wall of acquisition cavity is equipped with the entrance chamber 57 of opening backward, 46 leading flank of power block fixed installation symmetrical above and below Limited block 53, the limited block 53 are slidably installed with the vasculum 51, and about 55 two sides of the acquisition cavity connection is equipped with gear Chamber 48, the gear cavity 48 is interior to be rotatablely installed second gear 50, and the second gear 50 is engaged with the limited block 53, the tooth It takes turns the connection of chamber 48 and is equipped with driven chamber 49, be slidably installed sliding shoe 47 in the driven chamber 49, the sliding shoe 47 and described second Gear 50 engages, and driven 49 rear side inner wall of the chamber connection is equipped with connecting cavity 58, and connection is equipped with block on rear side of the connecting cavity 58 Chamber 59, the block chamber 59 be connected tos with described into chamber 57, and be slidably installed block 56 in the block chamber 59, the block 56 and Connecting rod 45 is hingedly installed between the sliding shoe 47, after the vasculum 51 moves back into soil, soil passes through The chamber 57 that enters enters in the acquisition cavity 55, so that the power block 46 moves forward, the power block 46 drives described Limited block 53 moves forward, and the limited block 53 drives the sliding shoe 47 to move backward by the second gear 50, described Sliding shoe 47 makes the block 56 of upper and lower two sides close to each other by the connecting rod 45, the block 56 of upper and lower two sides Soil gear is entered in chamber 57 and the acquisition cavity 55 described.

In addition, being located at symmetrical above and below in the sampler main body 14 set in one embodiment, on front side of the vasculum 51 There is lock chamber 64, be slidably installed fixture block 62 in the lock chamber 64, is fixedly mounted between the fixture block 62 and the lock chamber 64 4th spring 65,64 side of lock chamber are equipped with button cavities 63, and be slidably installed button 60 in the button cavities 63, the button 60 are fixedly connected with the fixture block 62, are equipped with card chamber 52 in the limited block 53, and the fixture block 62 can be caught in the card chamber 52, After the power block 46 drives the limited block 53 to move forward, the fixture block 62 is caught in the card chamber 52, is prevented described Limited block 53 slides backward, and by pressing the button 60, the fixture block 62 can be made to be detached from the card chamber 52 and blocked, will be described It is taken out into the soil in chamber 57 and the acquisition cavity 55.

In addition, in one embodiment, 14 top surface of sampler main body is taper, when the sampler main body 14 is mobile Water plant can be made mobile toward the left and right sides, can prevent the sampler main body 14 from being wound by water plant to a certain extent.

When there is sink to be wrapped in the sampler main body 14, the starting of first motor 30 drives the described dynamic of left side Power bar 15 rotates, and the power rail 15 in left side passes through the first bevel gear 29, the second bevel gear 31 and the transmission Bar 66 drives the power rail 15 on right side to rotate, so that cutting box 21 moves up and down, the first gear 23 passes through the tooth Item 20 rotates, so that the cutter bar 25 and the cutting wheel 24 rotate, the cutting wheel 24 is to being wrapped in the sampler master Water plant on body 14 is cut, and when the sampling mechanism 103 is sampled, the starting of the second motor 41 drives the spiral shell Rasp bar 37 rotates, and the threaded rod 37 rotates so that the threaded block 38 of two sides is close to each other up and down, upper and lower two sides it is described Threaded block 38 drives the vasculum 51 to move backward by the hinge bar 40, when the vasculum 51 moves back into mud After in soil, soil is entered in the acquisition cavity 55 by the chamber 57 that enters, so that the power block 46 moves forward, it is described dynamic Power block 46 drives the limited block 53 to move forward, and the limited block 53 drives the sliding shoe 47 by the second gear 50 It moving backward, the sliding shoe 47 makes the block 56 of upper and lower two sides close to each other by the connecting rod 45, and upper and lower two The block 56 of side keeps off soil to be entered in chamber 57 and the acquisition cavity 55 described, when the power block 46 drives the limit After position block 53 moves forward, the fixture block 62 is caught in the card chamber 52, prevents the limited block 53 from sliding backward, by pressing The button 60 can be such that the fixture block 62 is detached from the card chamber 52 and block, and enter described in chamber 57 and the acquisition cavity 55 Soil take out.

Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design To make the various modifications for above embodiments.It falls within the scope of protection of the present invention.Protection scheme of the invention It is subject to claims appended hereto.

Claims

1. a kind of antiwind underwater sampler for quickly removing water plant, including sampler main body, it is characterised in that: the sampler master Bilateral symmetry is equipped with mobile cavity in vivo, and the mobile cavity roof connection is equipped with spring cavity, and the mobile cavity bottom wall connection is equipped with auxiliary Chamber is helped, be slidably installed movable block between the compensated cavity and the spring cavity, and sliding cavity, the sliding are equipped in the movable block The intracavitary cutting box that is slidably installed, the cutting box is interior to be equipped with cutting chamber, is rotatablely installed in inner wall on rear side of the cutting chamber and runs through institute The cutter bar of cutting box trailing flank is stated, cutting wheel, the fixed peace of the cutter bar leading flank is fixedly mounted in the cutter bar trailing flank First gear is filled, rack gear is fixedly mounted between the sliding cavity roof and bottom wall, the rack gear is slidably installed with the cutting box, The first gear is engaged with the rack gear, is equipped between the movable block of the left and right sides and the cutting box is driven to move up and down Mobile mechanism, when driving the cutting box to move up and down, the first gear passes through the tooth for the mobile mechanism Item rotation, so that the cutter bar and cutting wheel rotation, the cutting wheel is to the water being wrapped in the sampler main body Grass is cut；

2. the antiwind underwater sampler for quickly removing water plant of one kind according to claim 1, it is characterised in that: the sampling Power part is fixedly mounted in device body floor, and the power part can drive the sampler main body to move under water.

3. the antiwind underwater sampler for quickly removing water plant of one kind according to claim 1, it is characterised in that: the movement Mechanism includes the power cavity being arranged in below the sliding cavity, and first motor is fixedly mounted in the power cavity bottom wall in left side, Rotational installation runs through the power rail of the power cavity roof in the sliding cavity roof, the power rail in left side extend downwardly with The top surface of the upward output shaft of the first motor is fixedly connected, and the power rail and the cutting box screw thread are installed, described dynamic It is located in the power cavity on power bar and first bevel gear is fixedly mounted, engagement chamber is equipped between the compensated cavity of the left and right sides, The intracavitary rotational installation drive rod of engagement, described drive rod or so extend through the engagement chamber or so inner wall, the transmission Bilateral symmetry is equipped with limit chamber in bar, and be slidably installed gag lever post in the limit chamber, and the gag lever post and the movable block rotate It installs, is located in the power cavity on the gag lever post and second bevel gear is fixedly mounted, the second bevel gear and described first Bevel gear engagement.

4. the antiwind underwater sampler for quickly removing water plant of one kind according to claim 1, it is characterised in that: the promotion Mechanism includes being fixedly mounted on to be located at the intracavitary third hand tap gear of the engagement on the drive rod, is equipped with above the engagement chamber Push chamber, the push chamber are connected to the mobile cavity, are rotatablely installed rotating bar in the push chamber roof, the rotating bar to Under extend through the engagement chamber roof, the 4th bevel gear, the 4th bevel gear and institute is fixedly mounted in the engagement bottom of chamber face Third hand tap gear engagement is stated, be slidably installed pushing block in the push chamber, and the pushing block and the rotating bar screw thread are installed, institute It states and connecting plate is fixedly mounted on movable block, the connecting plate is slidably installed with the push chamber, the movable block and the auxiliary The first spring is fixedly mounted between chamber, second spring is fixedly mounted between the movable block and the spring cavity.

5. the antiwind underwater sampler for quickly removing water plant of one kind according to claim 1, it is characterised in that: the sampling Mechanism includes the thread cavity symmetrical above and below that the sampler main body trailing flank is arranged in, and be slidably installed screw thread in the thread cavity Block, the thread cavity bottom wall of downside is interior to be fixedly mounted the second motor, and the top surface of the upward output shaft of the sampler main body is solid Dingan County fills threaded rod, and the threaded rod extends upwardly in the thread cavity roof of upside, the threaded block and the screw thread The installation of bar screw thread, the threaded block screw threads of upper and lower two sides is on the contrary, hinge bar is hingedly installed in the threaded block trailing flank, and upper and lower two Vasculum is hingedly installed between the hinge bar of side.

6. the antiwind underwater sampler for quickly removing water plant of one kind according to claim 1, it is characterised in that: the acquisition Acquisition cavity is equipped in case, be slidably installed power block in the acquisition cavity, in the power block leading flank and acquisition cavity front side Third spring is fixedly mounted between wall, on rear side of the acquisition cavity inner wall connection be equipped with opening backward enter chamber, the power block Leading flank fixed installation limited block symmetrical above and below, the limited block are slidably installed with the vasculum, two above and below the acquisition cavity Side connection is equipped with gear cavity, is rotatablely installed second gear in the gear cavity, the second gear is engaged with the limited block, institute It states gear cavity connection and is equipped with driven chamber, the driven intracavitary sliding shoe that is slidably installed, the sliding shoe is nibbled with the second gear Close, inner wall connection is equipped with connecting cavity on rear side of the driven chamber, and connection is equipped with block chamber on rear side of the connecting cavity, the block chamber with The chamber that enters is connected to, the intracavitary block that is slidably installed of the block, hingedly installation connection between the block and the sliding shoe Bar.

7. the antiwind underwater sampler for quickly removing water plant of one kind according to claim 1, it is characterised in that: the acquisition Symmetrical above and below in the sampler main body on front side of case to be equipped with lock chamber, be slidably installed fixture block in the lock chamber, the card The 4th spring is fixedly mounted between block and the lock chamber, the lock chamber side is equipped with button cavities, sliding in the button cavities Button is installed, the button is fixedly connected with the fixture block, and card chamber is equipped in the limited block, and the fixture block can be caught in the card It is intracavitary.

8. the antiwind underwater sampler for quickly removing water plant of one kind according to claim 1, it is characterised in that: the sampling Device body top face is taper, and the sampler main body can make water plant mobile toward the left and right sides when mobile, can be in certain journey Prevent the sampler main body from being wound on degree by water plant.