CN202372432U - Interval-type light-operated device for measuring permeation level of soil sample - Google Patents

Abstract

The utility model discloses an interval-type light-operated device for measuring the permeation level of a soil sample. The interval-type light-operated device at least comprises a soil sample vessel, a penetrating fluid pipe inserted into the soil sample vessel, a light source assembly and a sensor module; the light source assembly at least comprises linear light sources; the sensor module at least comprises a plurality of optical detectors; the linear light sources and the optical detectors are oppositely arranged at two sides of the penetrating fluid pipe; and the linear light sources are longitudinally arranged along the penetrating fluid pipe, and the plurality of optical detectors are longitudinally arranged at intervals along the penetrating fluid pipe. According to the interval-type light-operated device disclosed by the utility model, fewer required optical detectors are arranged, so that the cost of the light-operated device is reduced, and the operation convenience is improved. On the other handle, the acquired data volume is greatly reduced, the data processing workload at the later stage is also reduced, and the measuring precision also can meet actual engineering requirement; and the interval-type light-operated device has greater practicability and popularization value in the engineering practice.

Description

Be used to measure the compartment light controlling device of soil sample infiltration liquid level

Technical field

The utility model relates to the soil test technique field, relates in particular to a kind of light controlling device that is used to measure soil sample infiltration liquid level.

Background technology

In the engineering construction process; For the time factor of analyzing the ground consolidation sedimentation is provided; Estimate the seepage flow of subsoil, earth dam, high fill etc. and ooze to annotate stability, and the plumbing design, construction is selected materials; Artificial reduction water level and foundation stabilization design etc., the perviousness measurement data of soil sample is important basic parameter always.The infiltrative measurement of soil sample is to accomplish through the height of measuring transparency liquid liquid level in the transparent glass tube that inserts in the soil sample mostly; At present; Most of occasion all is through the transparent liquid level of people's visual inspection, utilizes the artificial reference mark on the clear glass that reads.There is visual error inevitably in this metering system, and measurement result varies with each individual, and just can't accomplish dynamically in good time measurement certainly exactly, runs into task measurement consuming time and is difficult to realize keeping watch momently observation.

For addressing this problem, Chinese patent 201120079748.7 discloses " a kind of light controlling device of measuring the infiltration liquid level of soil sample ", and it comprises transparent glass tube, T type conduit, open containers, light source assembly, sensor assembly, signal processor and computing machine.T type conduit vertically inserts in the open containers; Light source assembly comprises modulation signal generator and linear light sources; Sensor assembly comprises photo-detector, prime amplifier, wave detector and digital signal processor; Linear light sources cooperates with photo-detector, the opposed facing both lateral sides that places transparent glass tube; Signal processor comprises data input pin and data output end, and data input pin links to each other with digital signal processor, and data output end links to each other with computing machine.This light controlling device has overcome the inexactness of people's naked-eye observation level readings and the defective that can't measure in real time.But said apparatus has adopted a series of light controlling devices, whole process supervision collection infiltration liquid level, and required light controlling device quantity is big, cost is higher.On the other hand, the data volume of this full-automatic device collection big, be unfavorable for follow-up data processing.

Therefore, those skilled in the art is devoted to develop the compartment light controlling device that a kind of cost is low, operation is used to measure soil sample infiltration liquid level easily.

The utility model content

Because the above-mentioned defective of prior art, the utility model technical matters to be solved provides the compartment light controlling device that a kind of cost is low, operation is used to measure soil sample infiltration liquid level easily.

For realizing above-mentioned purpose, the utility model provides a kind of compartment light controlling device that is used to measure soil sample infiltration liquid level, comprises the soil sample container at least, is plugged in the penetrating fluid pipe in the said soil sample container; Also comprise light source assembly and sensor assembly; Said light source assembly comprises linear light source at least; Said sensor assembly comprises a plurality of photo-detectors at least; Said linear light source and said photo-detector are oppositely arranged on the both sides of said penetrating fluid pipe; Said linear light source is along vertical layout of said penetrating fluid pipe, and a plurality of said photo-detectors are along the longitudinal separation setting of said penetrating fluid pipe.

Preferably, said penetrating fluid pipe is a transparent glass tube.

Preferably, also comprise pedestal, said pedestal comprise pedestal riser that said penetrating fluid pipe is set and with the pedestal leveling board that said soil sample container is set.

Preferably, also comprise rule.Said rule is arranged between said penetrating fluid pipe and the pedestal riser.

Preferably, the position of a plurality of said photo-detectors is corresponding respectively with the respective value of said rule.

Preferably, said light source assembly also comprises modulation signal generator.

Preferably, said sensor assembly also comprises prime amplifier, wave detector and digital signal processor.

Preferably, said compartment light controlling device also comprises signal processor and computing machine.Said signal processor comprises data input pin and data output end, and said data input pin is connected with said digital signal processor signal, and said data output end is connected with said Computer signal.

The beneficial effect of the utility model is:

Defective and deficiency that the utility model exists to existing apparatus require the penetrating fluid bit quantity of required measurement soil sample and the different liquid levels required to different soil samples according to the long-term practice experience, the some light-operated parts of separation targetedly according to relevant specification.

The photo-detector negligible amounts that the light controlling device of the utility model is required has reduced the cost that installs, and has improved the convenience of operation.On the other hand, gather and data volume greatly reduce, reduced the data processing work amount in later stage again, measuring accuracy also can satisfy actual demands of engineering, in engineering practice, has bigger practicality and promotional value.

Below will combine accompanying drawing that the technique effect of design, concrete structure and the generation of the utility model is described further, with purpose, characteristic and the effect of understanding the utility model fully.

Description of drawings

Fig. 1 is the perspective view of an embodiment of the utility model.

Fig. 2 is the plan structure synoptic diagram of Fig. 1.

Fig. 3 is the left TV structure synoptic diagram of Fig. 1.

Embodiment

Like Fig. 1, Fig. 2, shown in Figure 3; Compartment light controlling device one specific embodiment of the utility model; Be to the improvement of the light controlling device of existing a kind of infiltration liquid level of measuring soil sample, comprise the soil sample container at least and be plugged in the penetrating fluid pipe 5 in the soil sample container that penetrating fluid pipe 5 is a transparent glass tube.Also comprise light source assembly, sensor assembly 1 and pedestal.Pedestal comprise pedestal riser 3 that penetrating fluid pipe 5 is set and with the pedestal leveling board 4 that the soil sample container is set.

Light source assembly comprises linear light source at least, and modulation signal generator.Sensor assembly 1 comprises a plurality of photo-detectors at least, also comprises prime amplifier, wave detector and digital signal processor.Linear light source and photo-detector are oppositely arranged on the both sides of penetrating fluid pipe 5.Linear light source is along vertical layout of penetrating fluid pipe 5, and a plurality of photo-detectors in the sensor assembly 1 are along the longitudinal separation setting of penetrating fluid pipe 5.

One rule 2 is arranged between penetrating fluid pipe 5 and the pedestal riser 3.The position of a plurality of photo-detectors is corresponding respectively with the respective value of rule 2.

It is disclosed that devices such as above-mentioned soil sample container, linear light source, modulation signal generator, prime amplifier, wave detector and digital signal processor are prior art, and the utility model repeats no more.

Preferably, the compartment light controlling device of the utility model also comprises signal processor and computing machine.Signal processor comprises data input pin and data output end.Wherein, data input pin is connected with the digital signal processor signal, and data output end is connected with Computer signal.

The application of the utility model is: when measuring the infiltration liquid level of soil sample, and in different time sections, the variation that penetrating fluid can have liquid level to descend in penetrating fluid pipe 5.Linear light source through being separately positioned on penetrating fluid pipe 5 both sides and photo-detector obtain the height of infiltration liquid level, and measurement data is sent to the data analysis of carrying out the later stage in the computing machine.

The utility model is because the photo-detector that has adopted compartment to arrange has reduced the cost that installs.On the other hand, gather and data volume greatly reduce, reduced the data processing work amount in later stage, measuring accuracy also can satisfy actual demands of engineering.

More than describe the preferred embodiment of the utility model in detail.Should be appreciated that those of ordinary skill in the art need not creative work and just can make many modifications and variation according to the design of the utility model.Therefore, all technician in the art according to the design of the utility model on the basis of existing technology through the available technical scheme of logical analysis, reasoning, or a limited experiment, all should be in determined protection domain by claims.

Claims (10)

1. a compartment light controlling device that is used to measure soil sample infiltration liquid level comprises the soil sample container at least, is plugged in the penetrating fluid pipe in the said soil sample container; Also comprise light source assembly and sensor assembly; Said light source assembly comprises linear light source at least; Said sensor assembly comprises a plurality of photo-detectors at least; Said linear light source and said photo-detector are oppositely arranged on the both sides of said penetrating fluid pipe; It is characterized in that: said linear light source is along vertical layout of said penetrating fluid pipe, and a plurality of said photo-detectors are along the longitudinal separation setting of said penetrating fluid pipe.

2. compartment light controlling device as claimed in claim 1 is characterized in that: said penetrating fluid pipe is a transparent glass tube.

3. compartment light controlling device as claimed in claim 1 is characterized in that: also comprise pedestal, said pedestal comprise pedestal riser that said penetrating fluid pipe is set and with the pedestal leveling board that said soil sample container is set.

4. compartment light controlling device as claimed in claim 1 is characterized in that: also comprise rule.

5. compartment light controlling device as claimed in claim 4 is characterized in that: said rule is arranged between said penetrating fluid pipe and the pedestal riser.

6. compartment light controlling device as claimed in claim 4 is characterized in that: the position of a plurality of said photo-detectors is corresponding respectively with the respective value of said rule.

7. compartment light controlling device as claimed in claim 1 is characterized in that: said light source assembly also comprises modulation signal generator.

8. compartment light controlling device as claimed in claim 1 is characterized in that: said sensor assembly also comprises prime amplifier, wave detector and digital signal processor.

9. compartment light controlling device as claimed in claim 1 is characterized in that: said compartment light controlling device also comprises signal processor and computing machine.

10. compartment light controlling device as claimed in claim 9; It is characterized in that: said signal processor comprises data input pin and data output end; Said data input pin is connected with said digital signal processor signal, and said data output end is connected with said Computer signal.

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