CN104729882A - Pendent airtight sampler of water samples in deep sea - Google Patents
Pendent airtight sampler of water samples in deep sea Download PDFInfo
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- CN104729882A CN104729882A CN201510029212.7A CN201510029212A CN104729882A CN 104729882 A CN104729882 A CN 104729882A CN 201510029212 A CN201510029212 A CN 201510029212A CN 104729882 A CN104729882 A CN 104729882A
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Abstract
The invention discloses a pendent airtight sampler of water samples in deep sea, aiming to provide a pendent airtight sampler of water samples in deep sea, which can be used for conveniently and accurately collecting water samples in specific distances above the seabed. The sampler comprises a triggering device, a settling balance weight, a triggering balance weight, a plurality of water sample collectors and a winch, wherein the winch is arranged on a hull; the triggering device comprises a vertical triggering cylinder, an upper piston body, a lower piston body, a first connecting rod, a second connecting rod and buoyancy devices; the upper and lower piston bodies are arranged in the triggering cylinder in a sliding manner; the first connecting rod is used for connecting the upper and lower piston bodies; the second connecting rod is arranged in the middle of the lower end face of the lower piston body; the buoyancy devices are arranged at the outer sides of the triggering cylinder.
Description
Technical field
The present invention relates to a kind of water sampling device, be specifically related to a kind of deep-sea hanging type water sample air-tight sampling instrument.
Background technology
Water sample collection work is the important content of water environment scientific research and water environment protection and management work, and the collection for different depth water sample is prerequisite and the basis of carrying out every research work smoothly.Waters water body affects by factors such as material, current, temperature can produce stratification effect, the information such as the hydrology, physics, chemistry, biology of different water levels is different, collection analysis is in the difference of different layers position water body, be the indispensable content of the subject such as environmental science, Marine Sciences, it is widely used in the practical field such as water area ecological environment evaluation, contamination accident investigation.
Current hydrophore mostly is fixed-depth water sampler, namely by rope, hydrophore is transferred to the water layer of certain depth, then carries out water sampling by hydrophore to the water layer of this degree of depth, and namely current hydrophore is that the depthkeeping that benchmark carries out adopts water with the water surface; And owing to adopting in water process, operating personnel determine specifically sea water advanced being difficult to each marine site, this causes the operation inconvenience when gathering seabed water sample of current this kind of fixed-depth water sampler, is difficult to the water sample gathered accurately above seabed in specific range.Such as, when needing to gather above seabed the water sample in 3 meters or 5 meters or 10 meters of distances, current fixed-depth water sampler has then been difficult to acquisition tasks.
Such as, China Patent Publication No. CN202869850U, publication date on April 10th, 2013, the name of innovation and creation is called the hydrophore that Electronic control is closed, wherein support setting is being adopted on water receptacle, universal driving shaft can slide up and down and plug in the bracket, trigger member is installed on universal driving shaft or top cover labyrinth hold assembly, tractive magnet can move up and down rack-mount and be equipped with for moving up with trigger member time drive trigger member move up, power supply connects tractive magnet by on-off circuit, top cover labyrinth hold assembly is at support and to adopt between water receptacle and to be installed on universal driving shaft, top cover labyrinth is connected with the top of adopting water receptacle and is clamped in top cover labyrinth hold assembly, lower sealing cover is connected with the bottom of adopting water receptacle also and top cover labyrinth links is arranged, upper-lower seal lid trends towards covering the top and the bottom being located at and adopting water receptacle respectively.The hydrophore of this application case is be that the depthkeeping that benchmark carries out adopts water with the water surface equally; There is operation inconvenience in it, is difficult to the problem of the water sample gathered accurately above seabed in specific range equally when gathering seabed water sample.
Summary of the invention
The object of the invention is to overcome fixed-depth water sampler of the prior art operation inconvenience when gathering seabed water sample, be difficult to the problem of the water sample gathered accurately above seabed in specific range, provide a kind of and can facilitate, gather accurately the deep-sea hanging type water sample air-tight sampling instrument of the water sample above seabed in specific range.
Technical scheme of the present invention is:
A kind of deep-sea hanging type water sample air-tight sampling instrument, comprises flip flop equipment, sedimentation counterweight, triggers counterweight, several water samplers and the winch be arranged on hull; Described winch comprises the vehicle frame be arranged on hull, is rotatably arranged on the reel on vehicle frame by axostylus axostyle, is wound on the traction rope on reel and is arranged on hull for driving the drive motor of spool turns;
Described flip flop equipment comprises the triggering cylinder body vertically arranged, slidably be arranged on the upper piston body in triggering cylinder body and lower piston body, connect the first connecting rod of upper and lower piston body, be arranged on the second connecting rod in the middle part of lower piston body lower surface and the buoyant device triggered on cylinder body lateral surface is set; The upper end open of described triggering cylinder body, lower end closed, what be provided with in the middle part of the lower surface of triggering cylinder body dodges through hole, and the lower end of described second connecting rod is toward downward-extension and through dodging through hole; Described triggering cylinder body medial surface is provided with upper limit projection and lower limit projection, described upper limit projection is between upper and lower piston body, lower limit projection is positioned at below lower piston body, and when piston body is resisted against on lower limit projection instantly, upper piston body is positioned at the triggering cylinder body above upper limit projection; Instantly, when piston body is resisted against on upper limit projection, upper piston body is positioned at the top of the upper surface of triggering cylinder body; The first Compress Spring is arranged with on described second connecting rod, between lower piston body and triggering cylinder body lower end, described triggering counterweight is connected with the lower end of second connecting rod by the first connection cord, and when triggering counterweight and being vertically suspended on below triggering cylinder body, this triggering counterweight can make lower piston body move down and be resisted against on lower limit projection;
Described sedimentation counterweight is suspended on the below of triggering cylinder body by the second connection cord; Described triggering counterweight is positioned at the below of sedimentation counterweight; The buoyancy of described buoyant device is greater than each water sampler, flip flop equipment and triggers the gravity sum of counterweight, and is less than the gravity sum of each water sampler, flip flop equipment and sedimentation counterweight;
The gravity of described water sampler is greater than the buoyancy of water sampler, described water sampler comprises the 3rd connection cord, the collection tube of closed at both ends, be arranged on the guide through hole at collection tube two ends, be arranged on the sliding shaft rod in collection tube, the spacing ball be connected with collection tube by the 4th connection cord and the tripper be arranged in collection tube; The length of described 4th connection cord is less than the length of the 3rd connection cord; Described sliding shaft rod is through the guide through hole at collection tube two ends, and be respectively equipped with the first O-ring seal between two guide through hole and sliding shaft rod, in the middle part of sliding shaft rod lateral surface, be positioned at collection tube and be provided with annular lug, sliding shaft rod lateral surface is provided with along the axially extended intake chamber of sliding shaft rod, and the length of intake chamber is greater than the length of guide through hole; Be arranged with the 3rd Compress Spring on described sliding shaft rod, between annular lug and collection tube one end, described 3rd Compress Spring and intake chamber are positioned at the relative both sides of annular lug;
Described tripper comprises and is arranged in the middle part of collection tube lateral surface, and the unblock cylinder body perpendicular with collection tube, slidably be arranged on the pushing piston unlocked in cylinder body, be arranged on the unblock lever of pushing piston one end and be arranged on the piston rod of the pushing piston other end, described unblock lever and collection tube are positioned at the same side of pushing piston, described piston rod is through unlocking cylinder ends, being positioned at outside unblock cylinder body, and described upper cover of piston rod is provided with second Compress Spring that pushing piston can be made to pass toward collection tube direction; The end unlocking lever is passed collection tube sidewall, is positioned at collection tube inner chamber; When described annular lug and the 3rd Compress Spring move to the same side unlocking lever, described intake chamber is positioned at inside collection tube; One end of described 3rd connection cord is connected with triggering cylinder body, and the other end is connected with the end of piston rod.
The deep-sea hanging type water sample air-tight sampling instrument of this programme is be that benchmark carries out depthkeeping and adopts water with seabed in collection water sample process, thus can facilitate, water sample accurately above collection seabed in specific range.
As preferably, unlock cylinder body medial surface and be provided with the first collar stop and the second collar stop, first collar stop is positioned at the same side of pushing piston with unlocking lever, pushing piston is between the first collar stop and the second collar stop, air guide channel is provided with in described unblock cylinder side wall, the Single port of this air guide channel is connected with unblock inner chamber of cylinder block, and this port of air guide channel and pushing piston are positioned at the relative both sides of the second collar stop; The another port of air guide channel and collection tube intracavity inter-connection; On described unblock cylinder body lateral surface, between collection tube and the first collar stop, be provided with radial direction through hole, described collection tube lateral surface is provided with the axially extending bore coaxial with unlocking cylinder body, described unblock lever is coaxially arranged with unblock cylinder body, unlock lever through axially extending bore, between described axially extending bore and unblock lever, be provided with the second O-ring seal; The 3rd O-ring seal is provided with between described piston rod and unblock cylinder body; When pushing piston is resisted against on the first collar stop, the end unlocking lever stretches to the inner side of the end face of annular lug; When pushing piston is resisted against on the second collar stop, the end unlocking lever is positioned at the outside of the end face of annular lug.This programme structure is conducive to water sampler when floating up to assigned address, and tripper can unlock smoothly, thus makes water sampler collect water sample smoothly.
As preferably, the cross-sectional area unlocking lever is identical with the cross-sectional area of piston rod, and the cross-sectional area of pushing piston is the twice of the cross-sectional area of unblock lever.This programme structure is conducive to tripper and can unlocks smoothly, thus makes water sampler collect water sample smoothly.
As preferably, in the middle part of collection tube lateral surface, be provided with the first link, and this first link and tripper are positioned at the relative both sides of collection tube; One end of described 4th connection cord is connected with the first link, and the other end is connected with spacing ball.
As preferably, trigger on cylinder body lateral surface, be positioned at the limiting through hole being provided with above upper limit projection and running through and trigger cylinder body medial surface, this limiting through hole extends along triggering cylinder body radial direction; That can take out in described limiting through hole is inserted with auxiliary stopper lever, and when piston body is resisted against on lower limit projection instantly, described upper piston body is positioned at below auxiliary stopper lever.The auxiliary stopper lever of this programme is conducive to the practical operation of operating personnel.
As preferably, trigger outside cylinder body and be provided with two around triggering the uniform vertical suspension rod of cylinder body circumference, and two vertical suspension rods are connected with triggering cylinder body respectively by web member, the connection push rod of the vertical suspension rod of connection two is provided with between the upper end of two vertical suspension rods, and the middle part connecting push rod is provided with suspension ring, one end of described traction rope is connected with suspension ring.
As preferably, buoyant device is the annular buoyancy block around triggering cylinder body, and annular buoyancy block is hollow buoyant mass.
The invention has the beneficial effects as follows: can facilitate, gather water sample above seabed in specific range accurately.
Accompanying drawing explanation
Fig. 1 is a kind of structural representation of deep-sea of the present invention hanging type water sample air-tight sampling instrument.
Fig. 2 is a kind of structural representation of the water sampler in Fig. 1.
Fig. 3 is the partial enlarged drawing at A place in Fig. 2.
Fig. 4 is that deep-sea of the present invention hanging type water sample air-tight sampling instrument is adopting a kind of structural representation in water process.
Fig. 5 is that the water sampler in Fig. 4 is adopting a kind of structural representation in water process.
Fig. 6 is the partial enlarged drawing at B place in Fig. 5.
Embodiment
Below in conjunction with accompanying drawing and embodiment, the present invention is described in further detail:
As shown in Figure 1, deep-sea hanging type water sample air-tight sampling instrument comprises flip flop equipment 1, sedimentation counterweight 4, the winch 5 triggering counterweight 112, four water samplers 3 and be arranged on hull.Winch comprises the vehicle frame 51 be arranged on hull, is rotatably arranged on the reel 53 on vehicle frame by axostylus axostyle 52, is wound on the traction rope 54 on reel and is arranged on hull for driving the drive motor of spool turns.Axostylus axostyle is arranged on vehicle frame by bearing is rotating.Axostylus axostyle is horizontally disposed with.Gear reducer is provided with between drive motor and axostylus axostyle.
Flip flop equipment comprises the triggering cylinder body 11 vertically arranged, slidably be arranged on the upper piston body 14 in triggering cylinder body and lower piston body 16, connect the first connecting rod 12 of upper and lower piston body, be arranged on the second connecting rod 19 in the middle part of lower piston body lower surface and the buoyant device 111 triggered on cylinder body lateral surface is set.Trigger the upper end open of cylinder body, lower end closed.What be provided with in the middle part of the lower surface of triggering cylinder body dodges through hole 110.Buoyant device is the annular buoyancy block around triggering cylinder body.Annular buoyancy block is hollow buoyant mass.Trigger outside cylinder body and be provided with two around triggering the uniform vertical suspension rod 21 of cylinder body circumference, and two vertical suspension rods are connected with triggering cylinder body respectively by web member.The upper end of two vertical suspension rods is positioned at the top of triggering cylinder body.Be provided with the connection push rod 22 of the vertical suspension rod of connection two between the upper end of two vertical suspension rods, and the middle part connecting push rod is provided with suspension ring.One end of traction rope is connected with suspension ring.Connect push rod to parallel with the end face triggering cylinder body.The spacing connected between push rod and the end face triggering cylinder body is greater than the spacing between upper limit projection and lower limit projection.
Second connecting rod and lower piston body are coaxially arranged.The lower end of second connecting rod is toward downward-extension and through dodging through hole.Trigger cylinder body medial surface and be provided with upper limit projection 13 and lower limit projection 17.Upper limit projection is between upper and lower piston body.Lower limit projection is positioned at below lower piston body.Trigger on cylinder body lateral surface, be positioned at the limiting through hole being provided with above upper limit projection and running through and trigger cylinder body medial surface.This limiting through hole extends along triggering cylinder body radial direction, and limiting through hole is horizontally disposed with.That can take out in limiting through hole is inserted with auxiliary stopper lever 15.Instantly when piston body is resisted against on lower limit projection, upper piston body is positioned at the triggering cylinder body above upper limit projection, and upper piston body is positioned at (as shown in Figure 1) below auxiliary stopper lever; Instantly, when piston body is resisted against on upper limit projection, upper piston body is positioned at the top (as shown in Figure 4) of the upper surface of triggering cylinder body.The first Compress Spring 18 is arranged with on second connecting rod, between lower piston body and triggering cylinder body lower end.Trigger counterweight to be connected with the lower end of second connecting rod by the first connection cord 113, and when triggering counterweight and being vertically suspended on below triggering cylinder body, this triggering counterweight can make lower piston body move down and be resisted against on lower limit projection.Sedimentation counterweight is suspended on the below of triggering cylinder body by the second connection cord 41, one end of the second connection cord is connected with sedimentation counterweight, and the other end is connected with the bottom surface of triggering cylinder body.Trigger the below that counterweight is positioned at sedimentation counterweight, be specifically, when triggering counterweight and sedimentation counterweight is vertically suspended on below triggering cylinder body, trigger the below that counterweight is positioned at sedimentation counterweight, and the spacing triggered between counterweight and sedimentation counterweight is greater than the spacing between upper and lower spacing block set.
As shown in Figure 1 and Figure 2, the gravity of water sampler is greater than the buoyancy of water sampler.The gravity of the water sampler in the present embodiment is greater than the twice of the buoyancy of water sampler.Water sampler comprises the 3rd connection cord 31, the collection tube 34 of closed at both ends, be arranged on the guide through hole at collection tube two ends, be arranged on the sliding shaft rod 312 in collection tube, by the spacing ball 32 that the 4th connection cord 33 is connected with collection tube, be arranged on the tripper 39 in collection tube and be arranged on and trigger basifacial second link 30 outside cylinder body.Instantly when piston body is resisted against on upper limit projection, upper piston body is positioned at the top of the upper surface of triggering cylinder body, and the spacing between upper piston body and the upper surface of triggering cylinder body is greater than the diameter of spacing ball.Be provided with the first link 311 in the middle part of collection tube lateral surface, and this first link and tripper are positioned at the relative both sides of collection tube.One end of 4th connection cord is connected with the first link, and the other end is connected with spacing ball.The length of the 4th connection cord is less than the length of the 3rd connection cord.The length of the 4th connection cord is within 0.5 meter.
Sliding shaft rod through the guide through hole at collection tube two ends, and is respectively equipped with the first O-ring seal between two guide through hole and sliding shaft rod.Two guide through hole length are identical.Guide through hole medial surface is provided with O-ring seal and installs, and the first O-ring seal is arranged in the O-ring seal mounting groove on guide through hole medial surface.In the middle part of sliding shaft rod lateral surface, be positioned at collection tube and be provided with annular lug 38.Sliding shaft rod lateral surface is provided with along the axially extended intake chamber 310 of sliding shaft rod, and the length of intake chamber is greater than the length of guide through hole.The 3rd Compress Spring 37 is arranged with on sliding shaft rod, between annular lug and collection tube one end.3rd Compress Spring and intake chamber are positioned at the relative both sides of annular lug.Spacing between intake chamber and annular lug is greater than the length of guide through hole.
As shown in Figure 2 and Figure 3, tripper comprises and is arranged in the middle part of collection tube lateral surface, and the unblock cylinder body 313 perpendicular with collection tube, slidably be arranged on the pushing piston 315 unlocked in cylinder body, be arranged on the unblock lever 318 of pushing piston one end and be arranged on the piston rod 314 of the pushing piston other end.Unblock lever and collection tube are positioned at the same side of pushing piston.Unlock cylinder body medial surface and be provided with the first collar stop 321 and the second collar stop 322.First collar stop is positioned at the same side of pushing piston with unlocking lever.Pushing piston is between the first collar stop and the second collar stop.Unlock in cylinder side wall and be provided with air guide channel 323.The Single port of this air guide channel is connected with unblock inner chamber of cylinder block, and this port of air guide channel and pushing piston are positioned at the relative both sides of the second collar stop.The another port of air guide channel and collection tube intracavity inter-connection.Unlock on cylinder body lateral surface, between collection tube and the first collar stop, be provided with radial direction through hole 316.Collection tube lateral surface is provided with the axially extending bore coaxial with unlocking cylinder body.The cross-sectional area unlocking lever is identical with the cross-sectional area of piston rod, and the cross-sectional area of pushing piston is the twice of the cross-sectional area unlocking lever.
Unlock lever coaxially to arrange with unblock cylinder body.The end unlocking lever is passed collection tube sidewall, is positioned at collection tube inner chamber, specifically, unlocks lever and passes axially extending bore, is positioned at collection tube inner chamber.The second O-ring seal 317 is provided with between axially extending bore and unblock lever.Axially extending bore medial surface is provided with O-ring seal and installs, and the and O-ring seal is arranged in the O-ring seal mounting groove on axially extending bore medial surface.When pushing piston is resisted against on the first collar stop, the end unlocking lever stretches to the inner side (as shown in Figure 3) of the end face of annular lug; When pushing piston is resisted against on the second collar stop, the end unlocking lever is positioned at the outside (as shown in Figure 5) of the end face of annular lug.
Piston rod is through unlocking cylinder ends, being positioned at outside unblock cylinder body.The 3rd O-ring seal 319 is provided with between piston rod and unblock cylinder body.Upper cover of piston rod is provided with second Compress Spring 320 that pushing piston can be made to pass toward collection tube direction.Second Compress Spring can make pushing piston be resisted against on collar stop.One end of 3rd connection cord is connected with triggering cylinder body, and the other end is connected with the end of piston rod; Specifically, one end of the 3rd connection cord is connected with the second link, and the other end is connected with the end of piston rod.
The buoyancy of buoyant device is greater than four water samplers, flip flop equipment and triggers the gravity sum of counterweight, and is less than the gravity sum of four water samplers, flip flop equipment and sedimentation counterweight.When water sampler sinks under its Gravitative Loads, and after making the 3rd connection 31 rope exceptionally straight, the gravity of water sampler will overcome the elastic force of the second Compress Spring, makes pushing piston drive unblock lever 318 up to move, until pushing piston is resisted against on the second collar stop 322; The end now unlocking lever 318 is positioned at the outside (as shown in Figure 4, Figure 5) of annular lug end face.
When annular lug and the 3rd Compress Spring move to the same side unlocking lever, described intake chamber is positioned at inside collection tube.When convex annular is resisted against the end of collection tube under the 3rd Compress Spring effect, intake chamber is positioned at outside collection tube.
The specific works process of deep-sea of the present invention hanging type water sample air-tight sampling instrument is as follows:
The first, as shown in Figure 1, the spacing ball 32 of each water sampler is put into by the upper port triggering cylinder body and triggers cylinder body; Then, upper piston body being pushed and triggers in cylinder body, for stopping spacing ball, avoiding spacing ball to deviate from by triggering cylinder body upper port; Again then, auxiliary stopper lever 15 is inserted in limiting through hole, for stopping that upper piston body shifts out outward;
As shown in Figure 2 and Figure 3, annular lug 38 and the 3rd Compress Spring 37 are moved to the same side unlocking lever, and make annular lug be resisted against on unblock lever; Now, 310 intake chambers are positioned at inside collection tube, and extraneous seawater cannot enter collection tube.
The second, as shown in Figure 1, by winch 5, deep-sea hanging type water sample air-tight sampling instrument is hung on ship edge.When deep-sea hanging type water sample air-tight sampling instrument is hung behind ship edge by traction rope, auxiliary stopper lever 15 is taken out by limiting through hole.
When deep-sea hanging type water sample air-tight sampling instrument is hung behind ship edge by traction rope, trigger counterweight and lower piston body is moved down and is resisted against on lower limit projection; Now upper piston body is positioned at the triggering cylinder body above upper limit projection, for stopping spacing ball, avoids spacing ball to deviate from by triggering cylinder body upper port.
3rd, undertaken adopting water by placing under the hanging type water sample air-tight sampling instrument of deep-sea in the waters of specifying; When deep-sea hanging type water sample air-tight sampling instrument is in waters in decentralization process, each water sampler will be suspended in waters by spacing ball and the 4th connection cord.
4th, as shown in Figure 4, after deep-sea hanging type water sample air-tight sampling instrument sinks to seabed, trigger counterweight and incite somebody to action first seabed interaction, then deep-sea hanging type water sample air-tight sampling instrument continues to sink, till sedimentation counterweight sinks to seabed under the effect of sedimentation counterweight; And in this process, the first Compress Spring 18 will promote upper and lower piston body and up promote, till lower piston body is resisted against upper limit projection 13.
Instantly when piston body is resisted against upper limit projection, upper piston body is positioned at the top of the upper surface of triggering cylinder body, and the spacing between upper piston body and the upper surface of triggering cylinder body is greater than the diameter of spacing ball; Spacing ball can be deviate from by triggering cylinder body upper port, and now, each water sampler sinks under its Gravitative Loads.
As shown in Figure 5, Figure 6, when water sampler is floated downward, and after making the 3rd connection cord 31 exceptionally straight, the gravity of water sampler will overcome the elastic force of the second Compress Spring, pushing piston is made to drive unblock lever 318 up to move, until pushing piston is resisted against on the second collar stop 322; The end now unlocking lever 318 is positioned at the outside of annular lug end face, and the 3rd O-ring seal 317 is still resisted against on unblock lever side.
When the end unlocking lever is positioned at the outer rear flank of annular lug end face, the 3rd Compress Spring 37 annular lug is passed toward the other end of collection tube, and makes annular lug be resisted against the end of collection tube; Intake chamber is by through following state in this process: one end of intake chamber 310 is positioned at outside collection tube, and the other end is positioned at (as shown in Figure 5) inside collection tube; Now, extraneous seawater will have intake chamber to enter in collection tube.When annular lug is resisted against the end of collection tube, sliding shaft rod will again with the second O-ring seal fitted seal.So far water sampling is completed.
As shown in Figure 4, the present invention can lead to the length of the 3rd connection cord 31 of control second connection cord 41 and each water sampler, controls the spacing between collection tube and seabed, thus gathers the water sample above seabed in specific range conveniently, accurately.Such as, the length of the second connection cord is 10 meters, and the 3rd connection cord length is 5 meters, then the spacing between collection tube and seabed is 5 meters.
Claims (8)
1. a deep-sea hanging type water sample air-tight sampling instrument, is characterized in that, comprises flip flop equipment (1), sedimentation counterweight (4), triggers counterweight (112), several water samplers (3) and the winch (5) be arranged on hull; Described winch comprise be arranged on hull vehicle frame (51), be rotatably arranged on the reel (53) on vehicle frame by axostylus axostyle (52), be wound on the traction rope (54) on reel and be arranged on hull for driving the drive motor of spool turns;
Described flip flop equipment comprises the triggering cylinder body (11) vertically arranged, slidably be arranged on the upper piston body (14) in triggering cylinder body and lower piston body (16), connect the first connecting rod (12) of upper and lower piston body, be arranged on the second connecting rod (19) in the middle part of lower piston body lower surface and the buoyant device (111) triggered on cylinder body lateral surface is set; The upper end open of described triggering cylinder body, lower end closed, what be provided with in the middle part of the lower surface of triggering cylinder body dodges through hole (110), and the lower end of described second connecting rod is toward downward-extension and through dodging through hole; Described triggering cylinder body medial surface is provided with upper limit projection (13) and lower limit projection (17), described upper limit projection is between upper and lower piston body, lower limit projection is positioned at below lower piston body, and when piston body is resisted against on lower limit projection instantly, upper piston body is positioned at the triggering cylinder body above upper limit projection; Instantly, when piston body is resisted against on upper limit projection, upper piston body is positioned at the top of the upper surface of triggering cylinder body; The first Compress Spring (18) is arranged with on described second connecting rod, between lower piston body and triggering cylinder body lower end, described triggering counterweight is connected with the lower end of second connecting rod by the first connection cord (113), and when triggering counterweight and being vertically suspended on below triggering cylinder body, this triggering counterweight can make lower piston body move down and be resisted against on lower limit projection;
Described sedimentation counterweight is suspended on the below of triggering cylinder body by the second connection cord (41); Described triggering counterweight is positioned at the below of sedimentation counterweight; The buoyancy of described buoyant device is greater than each water sampler, flip flop equipment and triggers the gravity sum of counterweight, and is less than the gravity sum of each water sampler, flip flop equipment and sedimentation counterweight;
The gravity of described water sampler is greater than the buoyancy of water sampler, described water sampler comprises the 3rd connection cord (31), the collection tube (34) of closed at both ends, be arranged on the guide through hole at collection tube two ends, be arranged on the sliding shaft rod (312) in collection tube, the spacing ball (32) be connected with collection tube by the 4th connection cord (33) and the tripper (39) be arranged in collection tube; The length of described 4th connection cord is less than the length of the 3rd connection cord; Described sliding shaft rod is through the guide through hole at collection tube two ends, and be respectively equipped with the first O-ring seal between two guide through hole and sliding shaft rod, in the middle part of sliding shaft rod lateral surface, be positioned at collection tube and be provided with annular lug (38), sliding shaft rod lateral surface is provided with along the axially extended intake chamber of sliding shaft rod (310), and the length of intake chamber is greater than the length of guide through hole; Be arranged with the 3rd Compress Spring (37) on described sliding shaft rod, between annular lug and collection tube one end, described 3rd Compress Spring and intake chamber are positioned at the relative both sides of annular lug;
Described tripper comprises and is arranged in the middle part of collection tube lateral surface, and the unblock cylinder body (313) perpendicular with collection tube, slidably be arranged on the pushing piston (315) unlocked in cylinder body, be arranged on the unblock lever (318) of pushing piston one end and be arranged on the piston rod (314) of the pushing piston other end, described unblock lever and collection tube are positioned at the same side of pushing piston, described piston rod is through unlocking cylinder ends, being positioned at outside unblock cylinder body, and described upper cover of piston rod is provided with second Compress Spring (320) that pushing piston can be made to pass toward collection tube direction; The end unlocking lever is passed collection tube sidewall, is positioned at collection tube inner chamber; When described annular lug and the 3rd Compress Spring move to the same side unlocking lever, described intake chamber is positioned at inside collection tube; One end of described 3rd connection cord is connected with triggering cylinder body, and the other end is connected with the end of piston rod.
2. deep-sea according to claim 1 hanging type water sample air-tight sampling instrument, it is characterized in that, described unblock cylinder body medial surface is provided with the first collar stop (321) and the second collar stop (322), first collar stop is positioned at the same side of pushing piston with unlocking lever, pushing piston is between the first collar stop and the second collar stop, air guide channel (323) is provided with in described unblock cylinder side wall, the Single port of this air guide channel is connected with unblock inner chamber of cylinder block, and this port of air guide channel and pushing piston are positioned at the relative both sides of the second collar stop; The another port of air guide channel and collection tube intracavity inter-connection; On described unblock cylinder body lateral surface, between collection tube and the first collar stop, be provided with radial direction through hole (316), described collection tube lateral surface is provided with the axially extending bore coaxial with unlocking cylinder body, described unblock lever is coaxially arranged with unblock cylinder body, unlock lever through axially extending bore, between described axially extending bore and unblock lever, be provided with the second O-ring seal (317); The 3rd O-ring seal (319) is provided with between described piston rod and unblock cylinder body;
When pushing piston is resisted against on the first collar stop, the end unlocking lever stretches to the inner side of the end face of annular lug; When pushing piston is resisted against on the second collar stop, the end unlocking lever is positioned at the outside of the end face of annular lug.
3. deep-sea according to claim 2 hanging type water sample air-tight sampling instrument, it is characterized in that, the cross-sectional area of described unblock lever is identical with the cross-sectional area of piston rod, and the cross-sectional area of pushing piston is the twice of the cross-sectional area unlocking lever.
4. deep-sea according to claim 1 hanging type water sample air-tight sampling instrument, it is characterized in that, be provided with the first link (311) in the middle part of described collection tube lateral surface, and this first link and tripper is positioned at the relative both sides of collection tube; One end of described 4th connection cord is connected with the first link, and the other end is connected with spacing ball.
5. the deep-sea hanging type water sample air-tight sampling instrument according to claim 1 or 2 or 3 or 4, it is characterized in that, on described triggering cylinder body lateral surface, be positioned at the limiting through hole being provided with above upper limit projection and running through and trigger cylinder body medial surface, this limiting through hole extends along triggering cylinder body radial direction; That can take out in described limiting through hole is inserted with auxiliary stopper lever, and when piston body is resisted against on lower limit projection instantly, described upper piston body is positioned at below auxiliary stopper lever.
6. the deep-sea hanging type water sample air-tight sampling instrument according to claim 1 or 2 or 3 or 4, it is characterized in that, described water sampler also comprises being arranged on and triggers basifacial second link (30) outside cylinder body, one end of described 3rd connection cord is connected with the second link, and the other end is connected with the end of piston rod.
7. the deep-sea hanging type water sample air-tight sampling instrument according to claim 1 or 2 or 3 or 4, it is characterized in that, two are provided with around triggering the uniform vertical suspension rod of cylinder body circumference outside described triggering cylinder body, and two vertical suspension rods are connected with triggering cylinder body respectively by web member, the connection push rod (22) of the vertical suspension rod of connection two is provided with between the upper end of two vertical suspension rods, and the middle part connecting push rod is provided with suspension ring, one end of described traction rope is connected with suspension ring.
8. the deep-sea hanging type water sample air-tight sampling instrument according to claim 1 or 2 or 3 or 4, is characterized in that, described buoyant device is the annular buoyancy block around triggering cylinder body, and annular buoyancy block is hollow buoyant mass.
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| CN201510029212.7A CN104729882B (en) | 2015-01-21 | 2015-01-21 | Deep-sea hanging type water sample air-tight sampling instrument |
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