CN216560525U - Automatic operation equipment of ocean platform temperature and salt measuring instrument - Google Patents

Abstract

The utility model discloses an automatic operation device of an ocean platform thermohaline measuring instrument, which comprises: a float member connected with a thermohaline sensor; a gear reduction coupling member provided at one side of the float member; through the counterweight that gear speed reduction connecting piece and float spare are connected, arrange float spare in on the surface of water, and connect a counterweight through a gear speed reduction connecting piece, through arranging float spare in on the surface of water, and connect a counterweight through a gear speed reduction connecting piece, when the surface of water has the fluctuation, can the lifting or reduce float spare, and under gear speed reduction connecting piece's restriction, the lifting or the reduction of float spare can become gentle, the cable wobbling range that makes to connect float spare is little, can not rub with the test well, can ensure the cable and not improve the live time because of wearing and tearing with the well head, also not block float spare and lead to advantages such as data inaccuracy because of the cable, instrument equipment fault rate is reduced, make equipment more stable, intelligence.

Description

Automatic operation equipment of ocean platform temperature and salt measuring instrument

Technical Field

The utility model relates to a thermohaline measuring instrument, in particular to automatic operation equipment of an ocean thermohaline measuring instrument.

Background

The ocean station temperature and salt monitoring device mainly comprises a temperature and salt sensor and a mounting device thereof, wherein the mounting device of the temperature and salt sensor determines the accuracy of measuring the temperature and salinity of surface seawater and the service life of the temperature and salt sensor.

The existing cable for connecting the temperature and salt sensor cannot be automatically wound and unwound, and the cable can only be put as long as possible to deal with the tide fluctuation. However, after the cable is too long, a lot of problems exist, one is that the redundant cable is easy to fluctuate due to wave and tidal range in the measuring well to cause cable abrasion, and the other is that the cable is too long to cause the floater to be clamped in the well, so that the floater sinks in water or is directly suspended to cause inaccurate measuring values, and people are often required to go to a station to check and process the problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides automatic operation equipment of an ocean platform temperature and salt measuring instrument, which can effectively solve the problems.

The utility model is realized by the following steps:

an ocean table temperature salt gauge automatic operation device, comprising:

a float member connected with a thermohaline sensor;

a gear reduction coupling member provided at one side of the float member;

and the counterweight part is connected with the float part through a gear speed reduction connecting piece.

As further improved, still include the installed part, the installed part is including offering the groove of stepping down of float spare below sets up the hole of stepping down of counterweight below.

As a further improvement, the floater part comprises a floater wire coil, a floater wire wound on an inner cylinder of the floater wire coil, a floater fixed at the bottom of the floater wire, and a temperature and salt sensor inserted in an inner cavity of the floater, wherein the floater wire penetrates through the abdicating groove.

As a further improvement, the counterweight part comprises a counterweight wire coil, a counterweight wire wound on the inner cylinder of the counterweight wire coil and a counterweight block fixed at the bottom of the counterweight wire, and the counterweight wire penetrates through the abdicating hole.

As a further improvement, gaps exist among the float lines, the counterweight lines, the abdicating grooves and the abdicating holes, and the gaps are not less than 1 cm.

As a further improvement, one side of the float member, which is far away from the gear reduction connecting member, is connected with a shaft seat, the shaft seat comprises a fixed seat, the fixed seat penetrates through the float wire coil through a shaft rod, and a plug connected with the temperature and salt sensor is arranged on the shaft rod.

In a further refinement, the geared reduction coupling includes a geared connection structure, a junction box to which the plug is connected.

As a further improvement, the gear connecting structure is a speed reducer, the original end of the speed reducer is connected with the float part, and the working end of the speed reducer is connected with the counterweight part.

The utility model has the beneficial effects that:

according to the utility model, the floater is arranged on the water surface, and is connected with the counterweight through the gear speed reduction connecting piece, when the water surface fluctuates, the floater can be lifted or lowered, and under the limitation of the gear speed reduction connecting piece, the lifting or lowering of the floater becomes gentle, so that the swinging amplitude of the cable connected with the floater is small, the cable cannot rub with a test well, the advantages that the service time of the cable is prolonged due to abrasion with the well mouth, the data is inaccurate due to the fact that the cable clamps the floater, and the like can be ensured, the fault rate of instrument equipment is reduced, and the equipment is more stable and intelligent.

According to the utility model, the temperature and salt sensor is directly plugged in and pulled out of the plug and wound on the float disc to move up and down along with the cable, so that the temperature and salt sensor can be easily detached and replaced, and the single component can be replaced more conveniently and rapidly.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a first view angle of an automatic operation device of an ocean platform temperature and salt measuring instrument.

FIG. 2 is a schematic structural diagram of a second view angle of an automatic operation device of an ocean platform temperature and salt measuring instrument.

Fig. 3 is a schematic structural view of a float member and a weight member of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

In the description of the present invention, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1-3, an automatic operation apparatus of an ocean thermo-salt measuring instrument includes: a float member 1 to which a warm salt sensor 14 is attached; a gear reduction connecting piece 3 arranged on one side of the float piece 1; and a weight member 2 connected to the float member 1 through a gear reduction connecting member 3.

Further, still include mounting part 4, mounting part 4 is including offering the slot 41 of stepping down below float member 1, sets up the hole 42 of stepping down below the weight member 2.

Further, the float member 1 comprises a float wire coil 11, a float wire 12 wound around an inner cylinder of the float wire coil 11, a float 13 fixed at the bottom of the float wire 12, and a temperature and salt sensor 14 inserted into an inner cavity of the float 13, wherein the float wire 12 penetrates through the abdicating groove 41.

Further, the weight member 2 comprises a weight wire coil 21, a weight wire 22 wound on the inner cylinder of the weight wire coil 21, and a weight block 23 fixed at the bottom of the weight wire 22, wherein the weight wire 22 penetrates through the abdicating hole 42.

Furthermore, the float line 12 and the balance weight line 22 have a gap with the abdicating groove 41 and the abdicating hole 42, preferably, the gap is not less than 1cm, the float line 12 and the balance weight line 22 move smoothly due to the function of the gear speed reducing connecting piece 3, and the float line 12 and the balance weight line 22 do not have any wear phenomenon with the well or the installation piece 4 because the float line 12 and the balance weight line 22 reserve a moving space with the abdicating groove 41 and the abdicating hole 42 during installation.

Further, one side of the float element 1, which is far away from the gear reduction connecting element 3, is connected with a shaft seat 5, the shaft seat 5 comprises a fixed seat 51, the fixed seat 51 penetrates through the float wire coil 11 through a shaft rod, and a plug 52 connected with the warm salt sensor 14 is arranged on the shaft rod.

Further, the gear reduction connection 3 includes a gear connection structure 31, a terminal box 32 connected to the plug 52.

Further, the gear connecting structure 31 is a speed reducer, the original end of the speed reducer is connected with the float member 1, and the working end of the speed reducer is connected with the counterweight member 2.

The use principle of the utility model is as follows:

the temperature and salt sensor 14 is put into the water along with the float 13, and the temperature and salt sensor 14 starts to measure in the seawater because the float 13 has buoyancy (positive force) and the counterweight force (counter force) of the counterweight 2 to balance the floating (half in the water and half on the water surface).

When the seawater begins to rise tide, the thermohaline sensor 14 and the floater 13 begin to rise along with the seawater (the buoyancy of the floater 13 is increased), and the counterweight 23 descends; on the contrary, when the sea water falls to the tide, the temperature and salt sensor 14 and the floater 13 overcome the reaction force of the counterweight wire coil 21 and start to descend along with the sea water (the buoyancy of the floater 13 is reduced), and the counterweight 23 ascends.

Specifically, when the temperature and salt sensor 14 and the floater 13 float on the water surface (the temperature and salt sensor 14 is in seawater), the temperature and salt sensor 14, the floater 13 and the balancing weight 23 are kept static, when the seawater rises, the temperature and salt sensor 14 and the floater 13 rise due to the increase of buoyancy to break balance, the balancing weight 23 keeps balance after descending for a certain distance, the depth of the temperature and salt sensor 14 soaked in the seawater is kept unchanged, and vice versa, when the seawater falls into tide, the temperature and salt sensor 14 and the floater 13 fall and float on the water surface due to the buoyancy being smaller than gravity, the balancing weight 23 keeps balance after ascending for a certain height, and the depth of the temperature and salt sensor 14 soaked in the seawater is kept unchanged.

And float line 12 of connecting warm salt sensor 14 keeps the tensioning condition because 2 effort always in whole tide rising tide falls, and float line 12 can not grind the measuring well wall of a well, and does not knot, and wherein, the power of equipment self all relies on the tide rising tide fall of sea water, and the action is mild not had excessive fluctuation, and intelligent work need not personnel and often looks after, and need not the outside power consumption.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. An ocean platform temperature salt measuring apparatu automatic operation equipment which characterized in that includes:

a float member (1) connected with a temperature and salt sensor (14);

a gear reduction connection member (3) provided at one side of the float member (1);

a counterweight (2) connected with the float element (1) through a gear reduction connecting piece (3).

2. An ocean thermometer salt gauge automatic operation device according to claim 1, characterized by further comprising a mounting member (4), wherein the mounting member (4) comprises an abdicating slot (41) opened below the float member (1), and an abdicating hole (42) opened below the weight member (2).

3. The automatic operating equipment of the ocean platform thermohaline measuring instrument according to claim 2, wherein the float member (1) comprises a float wire coil (11), a float wire (12) wound on an inner cylinder of the float wire coil (11), a float (13) fixed at the bottom of the float wire (12), and a thermohaline sensor (14) inserted in an inner cavity of the float (13), wherein the float wire (12) penetrates through the abdicating groove (41).

4. An ocean platform temperature and salt measuring instrument automatic operation equipment according to claim 3, wherein, the weight member (2) comprises a weight wire coil (21), a weight wire (22) wound on the inner cylinder of the weight wire coil (21), a weight block (23) fixed at the bottom of the weight wire (22), and the weight wire (22) penetrates through the abdicating hole (42).

5. The automatic operating equipment of the ocean platform temperature salt measuring instrument is characterized in that gaps exist among the float line (12), the balance weight line (22), the abdicating groove (41) and the abdicating hole (42), and the gaps are not smaller than 1 cm.

6. An automatic operating device of an ocean thermal salt measuring instrument according to claim 3, wherein a shaft seat (5) is connected to one side of the float member (1) far away from the gear reduction connecting piece (3), the shaft seat (5) comprises a fixed seat (51), the fixed seat (51) penetrates through the float wire coil (11) through a shaft rod, and a plug (52) connected with the thermal salt sensor (14) is arranged on the shaft rod.

7. An ocean table temperature salt gauge automatic operating device according to claim 6, wherein the gear reduction connection (3) comprises a gear connection structure (31), a junction box (32) connected with the plug (52).

8. The automatic operating equipment of an ocean platform temperature and salt measuring instrument according to claim 7, wherein the gear connecting structure (31) is a speed reducer, the original end of the speed reducer is connected with the float member (1), and the working end of the speed reducer is connected with the counterweight member (2).

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