CN207851052U - A kind of surface water monitoring data harvester - Google Patents

Abstract

The utility model discloses a kind of surface water monitoring data harvesters, including acquiring bucket ontology, it is installed with the first sealing ring on the outside of the cover board lower face, first sealing ring inner end is installed with retainer ring, it is installed with the second sealing ring in the middle part of the cover board lower face, second sealing ring lower end is installed with convex block, the cover board lower face is installed with temperature measuring set, it is installed with mounting base in the middle part of the cover board upper surface, the mounting base intracavity bottom is installed with Damping rotation shaft, the Damping rotation shaft upper end is installed with torque spring, the torque spring upper end is installed with swingle, the swingle upper end is installed with water (flow) direction index.By being equipped with Damping rotation shaft, torque spring and water (flow) direction index structure, the direction of flow can be detected, there is retardance when water (flow) direction index rotates so that monitoring the data obtained floats smaller more stable.

Description

A kind of surface water monitoring data harvester

Technical field

The utility model is related to water monitoring acquisition technique field, specially a kind of surface water monitoring data harvester.

Background technology

The sampling of surface water is the initial link of surface water detection, is sampled to surface water using sampler, according to inspection The water body of designated depth is detected below the water surface of requirement acquisition surface water in mark standard, and current sampler is exactly one The upper end of a sampling tank, the upper end opening of sampling tank, sampling tank is fixed there are one steel wire handle, and steel wire handle winds lifting rope, side Just sampling tank is sunk into water body, is that sampling tank is directly sunk to designated depth in surface water then to lift i.e. when being sampled It completes to collect, and this collecting vessel is simple in structure, although the water collected can also be used as sample water, but not fully accurate Really, to water flow temperature detection without promptness and to the detection data stability of water (flow) direction it is poor.For this purpose, it is proposed that A kind of surface water monitoring data harvester.

Utility model content

The purpose of this utility model is to provide a kind of surface water monitoring data harvesters, to solve above-mentioned background technology The problem of middle proposition.

To achieve the above object, the utility model provides the following technical solutions：A kind of surface water monitoring data harvester, Including acquiring bucket ontology, the acquisition bucket chamber body wall is installed with insulating layer, and described this body sidewall of acquisition bucket fixes peace Equipped with holder, it is installed with holding rod on the left of the pedestal upper end, acquisition bucket ontology lower end is installed with kickboard, described Acquisition bucket chamber body center bottom is installed with support column, and the upper part of the supporting column is provided with installation cavity, the installation cavity Intracoelomic cavity bottom is installed with power supply, and the power supply upper end is installed with automatic telescopic link, the automatic telescopic link upper end It is installed with cover board, is installed with the first sealing ring on the outside of the cover board lower face, first sealing ring inner end is fixed Retainer ring is installed, the second sealing ring is installed in the middle part of the cover board lower face, second sealing ring lower end is fixedly mounted There are convex block, the cover board lower face to be installed with temperature measuring set, mounting base is installed in the middle part of the cover board upper surface, The mounting base intracavity bottom is installed with Damping rotation shaft, and the Damping rotation shaft upper end is installed with torque spring, described Torque spring upper end is installed with swingle, and the swingle upper end is installed with water (flow) direction index.

Preferably, the automatic telescopic link upper end is fixedly connected in the middle part of cover board lower face.

Preferably, the water (flow) direction index front end face is triangular in shape.

Preferably, the power supply electrical series are in automatic telescopic link.

Preferably, the retainer ring is located on the upside of acquisition bucket chamber body wall.

Compared with prior art, the utility model has the beneficial effects that：The surface water monitoring data harvester, by setting There are acquisition bucket ontology, insulating layer, support frame structure, the temperature of water in acquisition bucket ontology can be kept, increase the accurate of water monitoring Degree；By being equipped with kickboard structure, it can prevent acquisition bucket ontology from sinking under water, water quality is caused to become cloudy, influence water quality monitoring essence Exactness；By being equipped with the second sealing ring, convex block, mounting base and bottom cavity structure, the leakproofness of cylinder can be improved, is prevented external thin Bacterium or dust enter in the acquisition bucket after the completion of sampling；By being equipped with Damping rotation shaft, torque spring, swingle and water (flow) direction Index structure can detect the direction of flow, have retardance when water (flow) direction index rotates so that monitoring the data obtained is floating It is dynamic smaller more stable；By being equipped with temperature measuring set structure, the temperature of water outlet can be detected in time.

Description of the drawings

Fig. 1 is the utility model section view；

Fig. 2 is the utility model installation section view；

Fig. 3 is the utility model cover board partial sectional view.

In figure：1 acquisition bucket ontology, 2 insulating layers, 3 holders, 4 kickboards, 5 holding rods, 6 cover boards, 61 first sealing rings, 62 retainer rings, 63 temperature measuring sets, 64 second sealing rings, 65 convex blocks, 7 mounting bases, 71 bottom cavities, 72 Damping rotation shafts, 73 torque springs, 74 rotations Bar, 8 water (flow) direction indexs, 9 support columns, 91 installation cavitys, 92 automatic telescopic links, 93 power supplys.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work The every other embodiment obtained, shall fall within the protection scope of the present invention.

- 3 are please referred to Fig.1, the utility model provides a kind of technical solution：A kind of surface water monitoring data harvester, packet Acquisition bucket ontology 1 is included, acquisition bucket ontology 1 is transferred to by holding rod 5 specified altitude assignment pair in the surface water or ground Ha Noi first Water sample is acquired.1 internal chamber wall of acquisition bucket ontology is installed with insulating layer 2, keeps the temperature of water.The acquisition bucket sheet 1 side wall of body is installed with holder 3, and holder 3 fixes acquisition bucket ontology 1.It is installed with holding rod 5 on the left of 3 upper end of the holder, Acquisition bucket ontology 1 is transferred to the depths of surface water by holding rod 5.1 lower end of acquisition bucket ontology is installed with kickboard 4, Kickboard 4 is foam kickboard, can increase the buoyancy of acquisition bucket ontology 1, prevent acquisition bucket ontology 1 fall into it is water-bed by water quality stir to It is muddy.The 1 inner cavity center bottom of acquisition bucket ontology is installed with support column 9, and 9 inner cavity of support column acquires the interior of bucket ontology 1 In the middle part of chamber, 9 upper end level of support column is less than 1 upper end level of acquisition bucket ontology.9 top of the support column is provided with installation cavity 91, Cavity 91 is installed, telescopic device is installed.91 intracavity bottom of installation cavity is installed with power supply 93, and the power supply 93 is electrical It is series at automatic telescopic link 92.Electric energy is provided to automatic telescopic link 92 so that electric telescopic rod 92 can drive by power supply 93 Cover board 6 moves up and down, the opening and closing of control acquisition bucket ontology 1.93 upper end of the power supply is installed with automatic telescopic link 92,92 upper end of the automatic telescopic link is fixedly connected in the middle part of 6 lower face of cover board.The automatic telescopic link 92 is that XTL100 is miniature Automatic telescopic link.Automatic telescopic link 92 drives the opening and closing of cover board 6.92 upper end of the automatic telescopic link is installed with lid Plate 6, cover board 6 can so that acquiring bucket ontology 1 keeps leakproofness.After the completion of preventing acquisition, the inner cavity of acquisition bucket ontology 1 is into ash charge Dirt.The first sealing ring 61 is installed on the outside of 6 lower face of the cover board, the first sealing ring 61 is stuck in the upper of acquisition bucket ontology 1 End increases the leakproofness of acquisition bucket ontology 1.First sealing ring, 61 inner end is installed with retainer ring 62, the retainer ring 62 On the upside of acquisition 1 internal chamber wall of bucket ontology.Retainer ring 62 can equally increase the sealing effect of acquisition bucket ontology 1, prevent extraneous ash Dirt enters the inner cavity of acquisition bucket ontology 1.It is installed with the second sealing ring 64, the second sealing ring in the middle part of 6 lower face of the cover board 64 are stuck in the inner cavity of installation cavity 91, after the completion of preventing sampling, the substances with acquisition bucket sheet in automatic telescopic link 92 and power supply 93 The destruction of 1 inner cavity water of body.Second sealing ring, 64 lower end is installed with convex block 65, and convex block 65 increases by 1 He of acquisition bucket ontology Sealing effect between cavity 91 is installed, the machine oil in installation cavity 91 or the chemical substance in power supply 93 are prevented Temperature measuring set 63 is installed with to 1 inner cavity lower face of acquisition bucket ontology, temperature measuring set 63 can detect water sample water Pollution.The temperature of the cover board 6.It is installed with mounting base 7 in the middle part of 6 upper surface of the cover board, mounting base 7 can install dress It sets.7 intracavity bottom of the mounting base is installed with Damping rotation shaft 72, and Damping rotation shaft 72 can increase when swingle 74 rotates Resistance.72 upper end of the Damping rotation shaft is installed with torque spring 73, and water (flow) direction index 8 can pass through 73 band of torque spring The rotation of dynamic damping shaft 72.73 upper end of torque spring described in torque spring 73 is installed with swingle 74, swingle 74 Support water (flow) direction index 8.74 upper end of the swingle is installed with water (flow) direction index 8.8 front end of water (flow) direction index Face is triangular in shape.Facilitate identification of the staff to water (flow) direction.

Operation principle：The surface water or the specified height in ground Ha Noi are transferred to by bucket ontology 1 is acquired by holding rod 5 first Degree, is then risen cover board 6 by automatic telescopic link 92, and power supply 93 provides electric energy, the first sealing ring 61 to automatic telescopic link 92 It is stuck in the upper end of acquisition bucket ontology 1 with retainer ring 62, increases the leakproofness of acquisition bucket ontology 1, the second sealing ring 64 and convex block 65 can To increase the leakproofness of installation cavity 91, the inner cavity water inlet of installation cavity 91 is prevented, making for power supply and automatic telescopic link 92 is increased Use the service life.Flow drives water (flow) direction indicateing arm 8 to rotate, and water (flow) direction indicateing arm 8 is rotated by torque spring 73 first, then Torque spring 73 drives Damping rotation shaft 72, and when reduction flow is too urgent, water (flow) direction indicateing arm 8 rotates too fast, data acquisition stabilization Degree is poor.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is appreciated that can these embodiments be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaiied Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of surface water monitoring data harvester, including acquisition bucket ontology (1), it is characterised in that：The acquisition bucket ontology (1) internal chamber wall is installed with insulating layer (2), and acquisition bucket ontology (1) side wall is installed with holder (3), the holder (3) it is installed with holding rod (5) on the left of upper end, acquisition bucket ontology (1) lower end is installed with kickboard (4), the acquisition Bucket ontology (1) inner cavity center bottom is installed with support column (9), and support column (9) top is provided with installation cavity (91), institute It states installation cavity (91) intracavity bottom and is installed with power supply (93), power supply (93) upper end is installed with automatic telescopic link (92), automatic telescopic link (92) upper end is installed with cover board (6), is installed on the outside of cover board (6) lower face First sealing ring (61), the first sealing ring (61) inner end are installed with retainer ring (62), cover board (6) the lower face middle part It is installed with the second sealing ring (64), the second sealing ring (64) lower end is installed with convex block (65), the cover board (6) Lower face is installed with temperature measuring set (63), and mounting base (7) is installed in the middle part of cover board (6) upper surface, described Mounting base (7) intracavity bottom is installed with Damping rotation shaft (72), and Damping rotation shaft (72) upper end is installed with torsion bullet Spring (73), torque spring (73) upper end are installed with swingle (74), and swingle (74) upper end is installed with Water (flow) direction index (8).

2. a kind of surface water monitoring data harvester according to claim 1, it is characterised in that：The automatic telescopic link (92) upper end is fixedly connected in the middle part of cover board (6) lower face.

3. a kind of surface water monitoring data harvester according to claim 1, it is characterised in that：The water (flow) direction refers to It is triangular in shape to mark (8) front end face.

4. a kind of surface water monitoring data harvester according to claim 1, it is characterised in that：Power supply (93) electricity Property is series at automatic telescopic link (92).

5. a kind of surface water monitoring data harvester according to claim 1, it is characterised in that：Retainer ring (62) position On the upside of acquisition bucket ontology (1) internal chamber wall.