CN204758316U - Amphibious soil and groundwater sampling equipment - Google Patents

Abstract

The utility model relates to an amphibious soil and groundwater sampling equipment, it includes amphibious excavator (1), sample rig (2) and operation platform (3) three, and sample rig (2) and operation platform (3) are a whole, and the assembly is on the chassis of amphibious excavator (1), sample rig (2) is connected through fluid pressure line (11) hydraulic system with amphibious excavator (1), and amphibious excavator (1) has running gear, and the drilling tool of sample rig can be changed according to the demand, and this equipment not only can be worked on land, also can be applied to the development of resources and the environmental renovation sample operation of desilting, wetland, marsh and the mud flat in river course, lake effectively.

Description

A kind of amphibious soil and underground water sampling equipment

Technical field

The utility model relates to sampler field, is specifically related to a kind of amphibious soil and underground water sampling equipment.

Background technology

In research work out of doors, sampling is the important foundation of a lot of work, is also a very important program.But in existing sampler, mostly can only sample in single environment, as soil sampling apparatus can only sample soil on land; Underground water sampler can only sample under the environment such as the desilting in river course, lake, wetland, marsh and beach.Monistic sampler has fettered the operation of the coherent sampling such as development of resources, environmental renovation.

Utility model content

The purpose of this utility model solves the deficiency that in original soil repair system, soil and underground water sampler can only work on land, a kind of amphibious soil and underground water sampling equipment are provided, not only can work on land, also can be effectively applied to river course, the desilting in lake, wetland, the development of resources of marsh and beach and environmental renovation and sample operation.

Another object of the present utility model uses the air release amount on surface such as flux box monitoring swampland, wetland etc., composition and concentration etc.

Another object of the present utility model is conveniently installed, dismantles and change sampling apparatus, the function that this amphibious soil and underground water sampling equipment are possessed more variation, integrated.

The purpose of this utility model realizes by following technical proposal, a kind of amphibious soil and underground water sampling equipment, it is characterized in that: comprise amphibious excavator (1), sampler drill (2) and operating platform (3) three parts, sampler drill (2) and operating platform (3) as a whole, be assemblied on the chassis of amphibious excavator (1); Sampler drill (2) is connected by the hydraulic system of fluid pressure line (11) with amphibious excavator (1), and amphibious excavator (1) has running gear.

Further, operating platform (3) comprises guardrail (31), base plate (32), die clamper (33), base plate (32) is substantially horizontally arranged on the chassis of amphibious excavator (1), guardrail (31) is vertically mounted on base plate, and die clamper (33) is installed on four angles of the close running gear of base plate (32).

Further, sampler drill (2) comprises hydraulic hammer (21), foot rest (23), operating means (24), hydraulic jack (25) and drilling tool (26), hydraulic hammer (21) and hydraulic jack (25) cylinder barrel part are rigidly connected, hydraulic jack (25) expansion rod part and foot rest (23) are rigidly connected, hydraulic hammer (21) below is provided with drilling tool (26) or flux box (27), operating means (24) is connected with hydraulic jack (25), hydraulic hammer (21) is all connected with the hydraulic system of amphibious excavator (1) with hydraulic jack (25).

Change that different drilling tool can realize fetching water, the function of the swampland gas that fetches earth, detects.

Further, sampler drill (2) also comprises track (22), and hydraulic hammer (21), hydraulic jack (25) and operating means (24) connect as a whole being arranged on track (22).

Further, hydraulic hammer (21) below is provided with flux box (27).

Further, flux box (27) comprises cylindrical body, air bag (270), carrier gas feedway (271), flowmeter (272), thermometer (273), organic glass top (274), injection sample tap (275) and pressure release orifice (279), organic glass top (274) is covered on above cylindrical body, it is opening below cylindrical body, the air feed stream of carrier gas feedway (271) is communicated with described cylindrical body inside, flowmeter (272) is arranged on this air feed stream, pressure release orifice (279), thermometer (273), injection sample tap (275) is all arranged on organic glass top, air bag (270) is ring-type, be sheathed on tubbiness body peripheral portion.

The flux box measuring marsh gas realizes the transferring to swampland surface of flux box along moving up and down of expansion link, and airtight air bag makes flux box swim in unlikely sinking on swampland, plays sealing function simultaneously.

Further, flux box (27) also comprises photoelectric cell (278), and photoelectric cell (278) is arranged on air bag (270) bottom, and photoelectric cell (278) and ohmmeter (277) are electrically connected.

Further, injection sample tap (275) is connected with real-time analyzer (276), carries out Real-Time Monitoring to gas.

As preferably, the running gear of amphibious excavator (1) is multi-hull ship formula floating box structure and sealing box-shaped creeper tread, and equipment can be walked safely and operation at mud and the water surface.

Further, it is characterized in that: inside the running gear of amphibious excavator (1), be provided with T-slot erection support (12), die clamper (33) is clamped together base plate (32) and T-slot erection support (12), thus the clamping realizing operating platform (3) and amphibious excavator (1) is installed.

Die clamper (33) can realize fixture clamping by electro-hydraulic control is pressed from both sides with pine, when sampling apparatus will be changed, just can handle the die clamper 33 being arranged on base plate 32 fixed position, realize sampling apparatus dismantle quickly and easily and install, its hydraulic principle figure as shown in Figure 4, when Y1b, Y2 obtain electric, die clamper 33 performs pinching action, when Y1a, Y2 obtain electric, die clamper 33 performs the action of pine folder, when Y1a, Y1b, Y2 all must not electricity time, hydraulic oil is equipment fuel feeding, realizes the normal running of equipment.

Compared with prior art, advantage of the present utility model and good effect are:

1, the work of soil and underground water sampler is at present that working environment is very restricted on ground in the face of sample gathers.Sampler of the present utility model can overcome the impact of on-the-spot severe natural conditions, the problem that land sampler cannot arrive sampling spot waterborne can be solved, it normally can work in soft terrain, marsh, wetland, wastewater lagoon and various shallow water area, have in above-mentioned terrain or the ability of floating navigation, sampling work displacement and location can be realized.

2, sampling apparatus adopts the mode of die clamper quick and easy for installation, when not needing sampler drill, also can realize dismantling fast, meeting the work requirements of the diversification of environmental protection scientific and technical personnel and operating personnel.

3, by real-time analysis, can monitor the gas on the surface such as swampland, wetland.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation.

Fig. 2 is the vertical view of amphibious excavator.

Fig. 3 is the schematic diagram of sampler drill and operating platform.

Fig. 4 is the front elevation of sampler drill.

Fig. 5 is the partial schematic diagram of die clamper clamp operation platform.

Fig. 6 is the schematic diagram of the utility model when getting moorland soil and underground water.

Schematic diagram when Fig. 7 is the utility model monitoring swampland gas.

Fig. 8 is the flux box schematic diagram of monitoring swampland gas.

Fig. 9 is the utility model fixture hydraulic schematic diagram.

In figure: 1, amphibious excavator; 11, fluid pressure line; 12, T-slot erection support; 2, sampler drill; 21, hydraulic hammer; 22, track; 23, foot rest; 24, operating means; 25, hydraulic jack; 26, drilling tool; 27, flux box; 3, operating platform; 31, guardrail; 32, base plate; 33, die clamper; 4, the shallow water such as marsh, wetland face; 270, air bag; 271, carrier gas; 272, flowmeter; 273 thermometers; 274, organic glass top; 275, sample tap is injected; 276, real-time analyzer; 277, ohmmeter; 278, photoelectric cell; 279, pressure release orifice; 5, hydraulic schematic diagram; 51 hydraulic clip lock control oil cylinders; 52 hydraulic lock; 53 hydraulic clip lock control valves; 54 hydraulic switching valves.

Embodiment

In order to the feature of technical scheme can be clearly described, below in conjunction with accompanying drawing, the utility model is elaborated.

As shown in Figure 1 and Figure 2, a kind of amphibious soil and underground water sampling equipment, comprise amphibious excavator 1 and sampler drill 2 and operating platform 3 three parts, sampler drill 2 and operating platform 3 are installed as a whole, be assemblied on amphibious excavator 1, and provide power by fluid pressure line 11 pairs of sampler drills 2.

As shown in Figure 2 and Figure 3, amphibious excavator 1 is equipped with T-slot erection support 12, and operating platform 3 comprises guardrail 31, base plate 32, die clamper 33.Operating platform 3 is for installing sampler drill 2, and operating platform 3 also convenient operation personnel can also carry out the installation of drilling tool and the operation of equipment, and guardrail 31 is for the protection of the safety of operating personnel.

As shown in Figure 4, sampler drill 2 comprises hydraulic hammer 21, track 22, foot rest 23 and operating means 24, hydraulic jack 25.Hydraulic hammer 21 and hydraulic jack 25 cylinder barrel part are rigidly connected, and hydraulic jack 25 expansion rod part and foot rest 23 lower end are rigidly connected, and just can realize hydraulic hammer 21 along the feeding of track 22 at drilling direction, complete the operations such as water intaking of fetching earth by hydraulic jack 25.

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 5, by die clamper 33, base plate 32 and T-slot erection support 12 are clamped together, realize operating platform 3 to install with the clamping of amphibious excavator 1, adopt this kind of mode quick and easy for installation, when not needing sampler drill 2, also can realize dismantling fast.

As shown in Figure 6,7, be schematic diagram when amphibious soil and underground water sampling equipment get moorland soil and underground water and detection swampland gas, different drilling tools 26 can be changed as required, realize fetching earth or fetching water.Also can change flux box 27 simultaneously, be connected on hydraulic hammer 21, equally, realize the upper and lower of flux box 27 by hydraulic jack 25.

As shown in Figure 8, flux box 27 comprises air bag 270, carrier gas 271, flowmeter 272, thermometer 273, organic glass top 274, injection sample tap 275, real-time analyzer 276, ohmmeter 277, photoelectric cell 278 and pressure release orifice 279.When air bag 270 makes flux box 27 be placed on swampland surface, ensure that it does not sink, play stabilization.Thermometer 273 and ohmmeter 277 measure gas temperature in flux box 27 etc.Injection sample tap 275 is connected with real-time analyzer 276, carries out real-time analysis monitoring to gas sampled.

As shown in Figure 9, when sampling apparatus will be changed, just can handle the dedicated hydraulic die clamper 33 being arranged on base plate 32 fixed position, realize sampling apparatus and dismantle quickly and easily and install, its hydraulic principle figure as shown in Figure 4, when Y1b, Y2 obtain electric, hydraulic pressure die clamper 33 performs pinching action, when Y1a, Y2 obtain electric, hydraulic pressure die clamper 33 performs the action of pine folder, when Y1a, Y1b, Y2 all must not electricity time, hydraulic oil is equipment fuel feeding, realizes the normal running of equipment.

Finally, it is also to be noted that above what enumerate is only concrete enforcement of the present utility model.Obvious the utility model does not limit above example, can also have many distortion.All distortion that those skilled in the art can associate from the utility model, all think protection domain of the present utility model.

Claims (10)

1. an amphibious soil and underground water sampling equipment, it is characterized in that: comprise amphibious excavator (1), sampler drill (2) and operating platform (3) three parts, sampler drill (2) and operating platform (3) as a whole, be assemblied on the chassis of amphibious excavator (1); Sampler drill (2) is connected by the hydraulic system of fluid pressure line (11) with amphibious excavator (1), and amphibious excavator (1) has running gear.

2. amphibious soil as claimed in claim 1 and underground water sampling equipment, it is characterized in that: operating platform (3) comprises guardrail (31), base plate (32), die clamper (33), base plate (32) is substantially horizontally arranged on the chassis of amphibious excavator (1), guardrail (31) is vertically mounted on base plate, and die clamper (33) is installed on four angles of the close running gear of base plate (32).

3. amphibious soil as claimed in claim 2 and underground water sampling equipment, it is characterized in that: sampler drill (2) comprises hydraulic hammer (21), foot rest (23), operating means (24), hydraulic jack (25) and drilling tool (26), hydraulic hammer (21) and hydraulic jack (25) cylinder barrel part are rigidly connected, hydraulic jack (25) expansion rod part and foot rest (23) are rigidly connected, hydraulic hammer (21) below is provided with drilling tool (26) or flux box (27), operating means (24) is connected with hydraulic jack (25), hydraulic hammer (21) is all connected with the hydraulic system of amphibious excavator (1) with hydraulic jack (25).

4. amphibious soil as claimed in claim 3 and underground water sampling equipment, it is characterized in that: sampler drill (2) also comprises track (22), hydraulic hammer (21), hydraulic jack (25) and operating means (24) connect as a whole being arranged on track (22).

5. the amphibious soil as described in claim 3 or 4 and underground water sampling equipment, is characterized in that: hydraulic hammer (21) below is provided with flux box (27).

6. amphibious soil as claimed in claim 5 and underground water sampling equipment, it is characterized in that: flux box (27) comprises cylindrical body, air bag (270), carrier gas feedway (271), flowmeter (272), thermometer (273), organic glass top (274), injection sample tap (275) and pressure release orifice (279), organic glass top (274) is covered on above cylindrical body, it is opening below cylindrical body, the air feed stream of carrier gas feedway (271) is communicated with described cylindrical body inside, flowmeter (272) is arranged on this air feed stream, pressure release orifice (279), thermometer (273), injection sample tap (275) is all arranged on organic glass top, air bag (270) is ring-type, be sheathed on tubbiness body peripheral portion.

7. amphibious soil as claimed in claim 6 and underground water sampling equipment, it is characterized in that, flux box (27) also comprises photoelectric cell (278), photoelectric cell (278) is arranged on air bag (270) bottom, and photoelectric cell (278) and ohmmeter (277) are electrically connected.

8. amphibious soil as claimed in claims 6 or 7 and underground water sampling equipment, is characterized in that, injection sample tap (275) is connected with real-time analyzer (276).

9. amphibious soil as claimed in claims 6 or 7 and underground water sampling equipment, is characterized in that: the running gear of amphibious excavator (1) is multi-hull ship formula floating box structure and sealing box-shaped creeper tread.

10. amphibious soil as claimed in claim 9 and underground water sampling equipment, it is characterized in that: inside the running gear of amphibious excavator (1), be provided with T-slot erection support (12), die clamper (33) is clamped together base plate (32) and T-slot erection support (12), thus the clamping realizing operating platform (3) and amphibious excavator (1) is installed.