CN206960181U - A kind of nearly bottom multilayer in sublittoral region region based on transmission-light turbidity instrument control hangs the harvester of sand-like product - Google Patents

Abstract

A kind of nearly bottom multilayer in sublittoral region region based on transmission-light turbidity instrument control hangs the harvester of sand-like product, include automatic suspension sand collector component and the foot rest component of base four of automatic suspension sand collector component is installed, the automatic suspension sand collector component, which includes, is opened and closed controllable collection water tank, collection water tank capping；The foot rest component of base four includes the mounting bracket of installation automatic suspension sand collector component, anti-settling plate, in the vertical internal setting bearing of the mounting bracket, deflector is provided with the mounting bracket, the automatic suspension sand collector component is installed in mounting bracket, the mounting bracket can be set by bearing rotary, the axis of the collection water tank along flow dynamic axis；The harvester that a kind of nearly bottom multilayer in described sublittoral region region based on transmission-light turbidity instrument control hangs sand-like product transports dispensing by the foot rest component of base four, and the monitoring and collection of real-time water sample are realized by automatic suspension sand collector component.To the outstanding sand-like product needed for water sample demarcation of the assisted acquisition based on scene.

Description

Collection system of nearly end multilayer suspended sand sample in sub tide zone area based on control of transmission light turbidity meter

Technical Field

The utility model belongs to the technical field of the hydrology is surveyd, concretely relates to collection system of regional nearly end multilayer of sub tide zone suspended sand sample based on transmission light turbidity meter control.

Background

The traditional on-site suspended sand collection method comprises the steps of hanging a mechanical water sampler and a fish lead by a steel wire rope, and vertically hanging and pulling to collect a sample, wherein the opening and closing of the water sampler are completed by throwing a lead block on a survey ship by a measurer through the steel wire rope and striking a switch of the mechanical water sampler. Because the water sampler floats up and down under the action of water flow, the distance between the water sampler and the river bed is unstable, and the collected samples have randomness, the field water sample can not be ensured to cover the turbidity range in the measurement period, so that in the observation of the sand content of the near-bottom layer, the corresponding field suspended sand sample can not be collected, and the field water sample can not be utilized for calibration.

Utility model with application number "201510029792. X" discloses a seabed water sample collection equipment, aims at providing the seabed water sample collection equipment of the water sample in the specific distance in collection seabed top that can be convenient, accurate. The device comprises a trigger device, a trigger counterweight and a plurality of water sample collectors; the trigger device comprises a vertically arranged trigger cylinder body, an upper piston body and a lower piston body which are slidably arranged in the trigger cylinder body, a first connecting rod connecting the upper piston body and the lower piston body, and a second connecting rod arranged in the middle of the lower end face of the lower piston body.

The utility model discloses a utility model of application number "201110338412.2", discloses a deep water sample collector, mainly comprises bottle bottom, piston, body, the cylinder cover that leaks, spring, lead screw, nut. One end of the screw rod is fixedly connected with the inner hole of the piston, the other end of the screw rod is provided with a thread with a notch, the notch surface is provided with scales, the nut is rotated to the water depth indicated by the scales on the screw rod during use, the deep water sampler is thrown into water, after the deep water sampler sinks to the corresponding water depth, the piston is pushed open due to the strong enough water pressure, and the water in the deep water is poured into the bottle body, so that the water sample with the specified water depth is collected.

The utility model discloses an application number is "201410023036.1", a water sample collection system is disclosed, including the flotation pontoon, the flotation pontoon support, the collector, total overflow pipe and bottom anchor, the upper surface of flotation pontoon support is arranged in to the flotation pontoon, flotation pontoon support and bottom anchor fixed connection, the upper end of collector and the bottom fixed connection of flotation pontoon support, the collector includes the head festival, the tail pipe, a N link and N collection pipe, a link passes through threaded connection corresponding to a collection pipe, N link corresponds to N collection pipe and connects gradually, the head festival corresponds through threaded connection with the first link, the tail pipe passes through threaded connection corresponding to N collection pipe, N water inlets of N collection pipe communicate with water inlet control valve simultaneously, N delivery ports of N collection pipe communicate with total overflow pipe simultaneously, the bottom closure of total overflow pipe.

SUMMERY OF THE UTILITY MODEL

For solving above problem, provide one kind apart from the bed surface distance controllable, no cable, survey the ship restriction, be applicable to the device of full-automatic formula suspended sand sample collection under the extreme weather, the utility model provides a regional nearly end multilayer suspended sand sample's of sub tide area collection device based on transmission light turbidity meter control, its technical scheme specifically as follows:

the utility model provides a collection system of nearly end multilayer suspended sand sample in sub tide zone region based on control of transmission light turbidity meter which characterized in that: comprises an automatic suspended sand collector component (1) and a base quadruped frame component (2) for installing the automatic suspended sand collector component,

the automatic suspended sand collector component comprises a water collecting cabin (3) with controllable opening and closing and a water collecting cabin sealing cover (4);

the base quadruped frame component comprises a mounting bracket (5) for mounting an automatic suspended sand collector component, a mounting rod and a sand prevention device

A sedimentation plate (6),

a bearing is arranged in the vertical direction of the mounting bracket, a guide plate is arranged on one side of the mounting bracket,

the automatic suspended sand collector component is arranged on the mounting bracket,

the mounting bracket is arranged on the mounting rod and can rotate around the mounting rod through a bearing under the driving of water flow,

the guide plate enables the axis of the water collecting cabin to be consistent with the axis of the water flow power in the collecting process;

a collection system based on regional nearly end multilayer of sub tide area of transmission light turbidity appearance control hangs husky sample transport through base tetrapod component and puts in, realizes the monitoring and the collection of real-time water sample through automatic hanging husky collector component and rotatory water conservancy diversion setting.

According to the utility model discloses a collection system of regional nearly end multilayer of sub tide area husky sample of hanging based on transmission light turbidity appearance control, its characterized in that:

a bolt type hoop is arranged between the automatic suspended sand collector component and the mounting bracket,

a bolt type hoop (7) is arranged on the periphery of the automatic suspended sand collector component,

and a slot is formed in the corresponding position of the mounting bracket.

According to the utility model discloses a collection system of regional nearly end multilayer of sub tide area husky sample of hanging based on transmission light turbidity appearance control, its characterized in that:

the openable water collecting cabin is realized by controlling the extension and retraction of the steel wire rope through an electromagnetic switch,

the upper end surface of the automatic suspended sand collector component is provided with a rolling groove, at least four rollers (8) are arranged in the rolling groove at equal intervals,

the electromagnetic switch is arranged at the center of the upper end surface of the automatic suspended sand collector component,

the center of the steel wire rope is gathered in a bolt of the electromagnetic switch, and two ends of the steel wire rope penetrate through the rollers and are respectively connected to two side ends of the water collecting cabin.

According to the utility model discloses a collection system of regional nearly end multilayer of sub tide area husky sample of hanging based on transmission light turbidity appearance control, its characterized in that:

a spring (9) is arranged in the water collecting cabin in a penetrating way,

two ends of the spring are fixedly arranged on the water collecting cabin sealing cover through spring pull rings (10).

According to the utility model discloses a collection system of regional nearly end multilayer of sub tide area husky sample of hanging based on transmission light turbidity appearance control, its characterized in that:

the base four-foot stand component is arranged in a quadrangular frustum pyramid structure,

the anti-settling plate is arranged in a bottom surface cross beam of the base quadruped frame member;

the installation rods are at least 4 arranged in the vertical direction of the four-foot stand component of the base,

the installing support sets up 3 at least on the installation pole for the equidistance.

According to the utility model discloses a collection system of regional nearly end multilayer of sub tide area husky sample of hanging based on transmission light turbidity appearance control, its characterized in that:

and a hanging ring is arranged at the center of the upper end surface of the base tetrapod component.

According to the utility model discloses a collection system of regional nearly end multilayer of sub tide area husky sample of hanging based on transmission light turbidity appearance control, its characterized in that:

the ratio of the length to the height of the bottom surface of the base quadrangular frame component arranged in the quadrangular frustum pyramid structure is 5: 3.

the utility model discloses a collection system of regional nearly end multilayer hanging sand sample in sub tide zone based on transmission light turbidity meter control provides one kind apart from the bed surface distance controllable, no cable, survey the ship restriction, is applicable to the device that the full-automatic formula hanging sand sample under extreme weather gathered for supplementary collection is based on the required hanging sand sample of water sample calibration at scene.

Drawings

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

FIG. 2 is a structural diagram of the automatic suspended sand collector of the present invention;

fig. 3 is a schematic structural view of a base spider member of the present invention.

In the figure, 1 is an automatic suspended sand collector component; 2 is a base four-foot stand component; 3 is a water collecting cabin; 4 is a water collecting cabin sealing cover; 5 is a mounting bracket; 6 is an anti-settling plate; a bolt type hoop is 7; 8 is a roller; 9 is a spring; 10 is a spring tab.

Detailed Description

The present invention provides a device for collecting a sub-tidal zone near-bottom multi-layer suspended sand sample based on transmission light turbidity meter control, which is further specifically described below according to the attached drawings and the detailed description.

As shown in figures 1, 2 and 3, the device for collecting the near-bottom multi-layer suspended sand samples in the sub-tidal zone based on the control of a transmission light turbidity meter comprises an automatic suspended sand collector component (1) and a base four-foot stand component (2) for installing the automatic suspended sand collector component,

the automatic suspended sand collector component comprises a water collecting cabin (3) with controllable opening and closing and a water collecting cabin sealing cover (4);

the base quadruped frame component comprises a mounting bracket (5) for mounting an automatic suspended sand collector component, a mounting rod and a sand prevention device

A sedimentation plate (6),

a bearing is arranged in the vertical direction of the mounting bracket, a guide plate is arranged on one side of the mounting bracket,

the automatic suspended sand collector component is arranged on the mounting bracket,

the mounting bracket is arranged on the mounting rod and can rotate around the mounting rod through a bearing under the driving of water flow,

the guide plate enables the axis of the water collecting cabin to be consistent with the axis of the water flow power in the collecting process;

a collection system based on regional nearly end multilayer of sub tide area of transmission light turbidity appearance control hangs husky sample transport through base tetrapod component and puts in, realizes the monitoring and the collection of real-time water sample through automatic hanging husky collector component and rotatory water conservancy diversion setting.

Wherein,

a bolt type hoop is arranged between the automatic suspended sand collector component and the mounting bracket,

a bolt type hoop (7) is arranged on the periphery of the automatic suspended sand collector component,

and a slot is formed in the corresponding position of the mounting bracket.

Wherein,

the openable water collecting cabin is realized by controlling the extension and retraction of the steel wire rope through an electromagnetic switch,

the upper end surface of the automatic suspended sand collector component is provided with a rolling groove, at least four rollers (8) are arranged in the rolling groove at equal intervals,

the electromagnetic switch is arranged at the center of the upper end surface of the automatic suspended sand collector component,

the center of the steel wire rope is gathered in a bolt of the electromagnetic switch, and two ends of the steel wire rope penetrate through the rollers and are respectively connected to two side ends of the water collecting cabin.

Wherein,

a spring (9) is arranged in the water collecting cabin in a penetrating way,

two ends of the spring are fixedly arranged on the water collecting cabin sealing cover through spring pull rings (10).

Wherein,

the base four-foot stand component is arranged in a quadrangular frustum pyramid structure,

the anti-settling plate is arranged in a bottom surface cross beam of the base quadruped frame member;

the installation rods are at least 4 arranged in the vertical direction of the four-foot stand component of the base,

the installing support sets up 3 at least on the installation pole for the equidistance.

Wherein,

and a hanging ring is arranged at the center of the upper end surface of the base tetrapod component.

Wherein,

the ratio of the length to the height of the bottom surface of the base quadrangular frame component arranged in the quadrangular frustum pyramid structure is 5: 3.

the installation process comprises the following steps:

the method comprises the following steps of (1) mounting a set automatic suspended sand collector component on a mounting bracket of a base four-foot stand component, and adjusting the height of the mounting bracket according to requirements; the opening of the seal cover of the automatic collector specifically comprises the following steps: two seal covers are pulled up, the steel wire rope is pulled up in the middle of the guide rail, passes through the electromagnetic switch bolt, is limited by the electromagnetic switch bolt and cannot fall down, and the two seal covers are kept in an open state under the state.

Secondly, an automatic collector is installed. The bolt type anchor ear is arranged on the outer side of the automatic collector, the set automatic collector in an open state is inserted into a collector mounting bracket (a slot matched with the bolt type anchor ear is formed in the mounting bracket) by the bolt type anchor ear, and the automatic collector is fixed by bolts.

And thirdly, installing a collector installing support. The mounting bracket is fixedly mounted at the set height of the four-foot stand mounting rod through bolts. The bearing is arranged in the vertical direction of the mounting frame of the automatic suspended sand collector component and can rotate around the vertical line direction, the guide plates are arranged on two sides of the mounting frame of the automatic suspended sand collector component, and in the measuring process, the automatic suspended sand collector component can swing along with water flow, so that the axial direction of the water collecting cabin is consistent with the flow direction, the water flow can smoothly pass through the water collecting cabin, and the water body in the water collecting cabin is timely updated;

the spring is arranged in the water collecting cabin, so that the spring is prevented from being scratched by other instruments and damaged; the sealing degree of the water collecting cabin and the closed water collecting cabin can be increased by the built-in spring; the steel wire rope is connected with the water collecting cabin sealing cover, the steel wire rope is limited in the guide rail and can move in a roller wire groove in the guide rail, the roller restricts the moving range of the steel wire rope and reduces the resistance of the steel wire rope during recovery; the steel wire rope is tightened on an electromagnetic switch plug pin on the controller, and the water collecting cabin sealing cover is opened; the controller consists of four parts, namely an electromagnetic switch, a switch bolt, a transmission light turbidity meter, a controller debugging connection port and a battery compartment; through controller debugging connection port when setting for the sample transmission light turbidity appearance measured value scope, in the measurement process, reach the measured value scope when transmission light turbidity appearance in certain time interval, then controller drive electromagnetic switch opens, and the electromagnetic switch bolt is taken back, and the wire rope release, sump tank closing cap is closed, and this collection of hanging sand water sample finishes.

Then, the collection device is deployed. Will the utility model discloses an acquisition device utilizes the hoist cable to connect rings to the position of jettisoninging, puts in acquisition device to more flat river bed face, connects rope and floater on the rings.

The utility model discloses a collection system of regional nearly end multilayer hanging sand sample in sub tide zone based on transmission light turbidity meter control provides one kind apart from the bed surface distance controllable, no cable, survey the ship restriction, is applicable to the device that the full-automatic formula hanging sand sample under extreme weather gathered for supplementary collection is based on the required hanging sand sample of water sample calibration at scene.

Claims (7)

1. The utility model provides a collection system of nearly end multilayer suspended sand sample in sub tide zone region based on control of transmission light turbidity meter which characterized in that: comprises an automatic suspended sand collector component (1) and a base quadruped frame component (2) for installing the automatic suspended sand collector component,

the automatic suspended sand collector component comprises a water collecting cabin (3) with controllable opening and closing and a water collecting cabin sealing cover (4);

the base quadruped frame component comprises a mounting bracket (5) for mounting the automatic suspended sand collector component, a mounting rod and a settlement-proof plate (6),

a bearing is arranged in the vertical direction of the mounting bracket, a guide plate is arranged on one side of the mounting bracket,

the automatic suspended sand collector component is arranged on the mounting bracket,

the mounting bracket is arranged on the mounting rod and can rotate around the mounting rod through a bearing under the driving of water flow,

the guide plate enables the axis of the water collecting cabin to be consistent with the axis of the water flow power in the collecting process;

a collection system based on regional nearly end multilayer of sub tide area of transmission light turbidity appearance control hangs husky sample transport through base tetrapod component and puts in, realizes the monitoring and the collection of real-time water sample through automatic hanging husky collector component and rotatory water conservancy diversion setting.

2. The device for collecting the near-bottom multilayer suspended sand sample in the sub-tidal zone area based on the control of the transmitted light turbidimeter, according to claim 1, is characterized in that:

a bolt type hoop is arranged between the automatic suspended sand collector component and the mounting bracket,

a bolt type hoop (7) is arranged on the periphery of the automatic suspended sand collector component,

and a slot is formed in the corresponding position of the mounting bracket.

3. The device for collecting the near-bottom multilayer suspended sand sample in the sub-tidal zone area based on the control of the transmitted light turbidimeter, according to claim 1, is characterized in that:

the openable water collecting cabin is realized by controlling the extension and retraction of the steel wire rope through an electromagnetic switch,

the upper end surface of the automatic suspended sand collector component is provided with a rolling groove, at least four rollers (8) are arranged in the rolling groove at equal intervals,

the electromagnetic switch is arranged at the center of the upper end surface of the automatic suspended sand collector component,

the center of the steel wire rope is gathered in a bolt of the electromagnetic switch, and two ends of the steel wire rope penetrate through the rollers and are respectively connected to two side ends of the water collecting cabin.

4. The device for collecting the near-bottom multilayer suspended sand sample in the sub-tidal zone area based on the control of the transmitted light turbidimeter, according to claim 1, is characterized in that:

a spring (9) is arranged in the water collecting cabin in a penetrating way,

two ends of the spring are fixedly arranged on the water collecting cabin sealing cover through spring pull rings (10).

5. The device for collecting the near-bottom multilayer suspended sand sample in the sub-tidal zone area based on the control of the transmitted light turbidimeter, according to claim 1, is characterized in that:

the base four-foot stand component is arranged in a quadrangular frustum pyramid structure,

the anti-settling plate is arranged in a bottom surface cross beam of the base quadruped frame member;

the installation rods are at least 4 arranged in the vertical direction of the four-foot stand component of the base,

the installing support sets up 3 at least on the installation pole for the equidistance.

6. The device for collecting the near-bottom multilayer suspended sand sample in the sub-tidal zone area based on the control of the transmitted light turbidimeter, according to claim 1, is characterized in that:

and a hanging ring is arranged at the center of the upper end surface of the base tetrapod component.

7. The device for collecting the near-bottom multilayer suspended sand sample in the sub-tidal zone area based on the control of the transmitted light turbidimeter, according to claim 5, is characterized in that:

the ratio of the length to the height of the bottom surface of the base quadrangular frame component arranged in the quadrangular frustum pyramid structure is 5: 3.