CN212179447U - A drying device for soil detection - Google Patents

Abstract

The utility model provides a drying device for soil detection, including the base, fixed mounting has drying mechanism and screening mechanism on the base, the top intercommunication of drying mechanism is provided with crushing mechanism, the top of screening mechanism is fixed and is provided with the controller, drying mechanism includes the stoving case, the bottom of stoving case is fixed and is provided with the hot plate, the inside of stoving case is provided with the upset auger, still install first servo motor through motor support fixed mounting on the lateral wall of stoving case, the output shaft of first servo motor and the one end fixed connection of upset auger; the top of stoving case is fixed and is provided with the stoving feed inlet, and the lateral wall bottom intercommunication of stoving case has the stoving discharging pipe, and the stoving discharging pipe is linked together with screening mechanism. The utility model discloses a drying device is provided with rubbing crusher structure, stoving mechanism and screening mechanism, can smash the soil of sample simultaneously, dry and sieve and directly obtain the soil granule that detects needs, and simple to use and with low costs, the time is short.

Description

A drying device for soil detection

Technical Field

The utility model belongs to soil detection area especially relates to a drying device for soil detection.

Background

Soil environment monitoring refers to determining environmental quality (or pollution degree) and change trend thereof by measuring representative values of factors affecting soil environment quality, and generally refers to soil environment monitoring which generally comprises technical contents such as distribution sampling, sample preparation, analysis method, result characterization, data statistics, quality evaluation and the like.

Generally, when detecting soil, need detect the soil of even particle diameter, need dry soil again simultaneously, but its particle diameter ratio of soil of sample is great needs smash in advance, so, soil sample still need dry after drying again and smash and sieve the processing and have obtained the soil sample that needs the particle size, this just needs to use a plurality of equipment to handle, waste time and manpower, and the cost increases.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solve above problem and provide a drying device for soil detects, this drying device is provided with rubbing crusher structure, stoving mechanism and screening mechanism, can smash the soil of sample simultaneously, dry and sieve and directly obtain the soil granule that detects needs, and simple to use and with low costs, the time is short.

In order to solve the technical problem, the utility model discloses a technical scheme is: the drying device for soil detection comprises a base, wherein a drying mechanism and a screening mechanism are fixedly mounted on the base, the top of the drying mechanism is communicated with a crushing mechanism, and the top of the screening mechanism is fixedly provided with a controller;

the drying mechanism comprises a drying box, a heating plate is fixedly arranged at the bottom of the drying box, an overturning auger is arranged inside the drying box, and two ends of the overturning auger respectively penetrate through the side wall of the drying box and are rotatably connected with the side wall of the drying box; a first servo motor is fixedly arranged on the side wall of the drying box through a motor support, and an output shaft of the first servo motor is fixedly connected with one end of the turnover auger; the fixed stoving feed inlet that is provided with in top of stoving case, the lateral wall bottom intercommunication of stoving case has the stoving discharging pipe, the stoving discharging pipe with screening mechanism is linked together, be provided with the automatically controlled valve in the stoving discharging pipe, hot plate, automatically controlled valve and first servo motor all with controller electric connection.

In this technical scheme, set up rubbing crusher and construct and smash soil, smash for the graininess by bold soil, its stoving mechanism is used for drying soil, and screening mechanism is used for soil classification particle size screening separation to the soil that obtains corresponding particle size scope is convenient for detect goes on.

Further, the stoving incasement still fixedly is provided with the feeding deconcentrator, the feeding deconcentrator through four connecting rods fixed connection in on the inner wall of stoving case, still open two air vents on the roof of stoving case.

Further, the feeding disperser is located the upside of upset auger, the upset auger is located the upside of hot plate.

Furthermore, the feeding disperser is of a conical surface structure and is provided with a plurality of feeding holes.

In this technical scheme, soil enters into the stoving incasement by the stoving feed inlet, on the even dispersion of feeding deconcentrator arrives the hot plate, the hot plate heats and dries soil, and first servo motor operation drives the upset auger and rotates, then constantly overturns soil for the hot plate carries out the even heating to soil, prevents to heat excessively, guarantees the homogeneity of drying.

Furthermore, the crushing mechanism sequentially comprises a feeding pipe section, a crushing pipe section and a discharging pipe section from top to bottom, and the feeding pipe section and the crushing pipe section, and the crushing pipe section and the discharging pipe section are connected through flanges; the fixed feed inlet that is provided with in top of feeding pipe section, the fixed bushing that is provided with on the inner wall of crushing pipeline section, it has a plurality of small openings to open on the bushing, still there is the motor case through bracing piece fixed mounting on the inner wall of crushing pipeline section, fixed mounting has second servo motor in the motor case, second servo motor's output shaft runs through the arbor of motor case fixedly connected with crushing sword, crushing sword is located the upside of bushing, and runs through the bushing, second servo motor with controller electric connection.

Furthermore, a first control button and a second control button are arranged on the controller.

Further, the discharge pipe section is in a funnel shape, a discharge hole is fixedly formed in the bottom of the discharge pipe section, internal threads are formed in the inner wall of the drying feed port, external threads are formed in the outer wall of the discharge hole, and the drying feed port and the discharge hole are fixed through threads.

In this technical scheme, the soil of sampling is added to rubbing crusher by the feed inlet in the mechanism, and wherein first servo motor drives crushing sword and rotates, smashes soil constantly, and its granule soil after smashing enters into ejection of compact pipeline section via the small opening of bushing, by the discharge gate discharge in the stoving mechanism.

Further, screening mechanism includes the screening case, screening incasement is by last first filter and the second filter of being provided with to the lower fixed, the stoving discharging pipe with screening case intercommunication, and be located the upside of first filter, be provided with first screening discharge gate and second screening discharge gate on the lateral wall of screening case, be provided with third screening discharge gate on the diapire of screening case.

Furthermore, the first filter plate and the second filter plate are obliquely arranged, the first screening discharge port is formed in the upper side of the oblique bottom end of the first filter plate, and the second screening discharge port is formed in the upper side of the oblique bottom end of the second filter plate; the diameter of the filter holes in the first filter plate is larger than that of the filter holes in the second filter plate.

In this technical scheme, set up first filter and second filter and carry out twice filtration to soil, can obtain the dry soil of three kinds of different particle diameter scopes according to the particle diameter, the detection in the later stage of being convenient for can select the soil of corresponding particle diameter scope as required to detect.

Further, stoving mechanism is through first fixed stay post fixed mounting on the base, screening mechanism is through second fixed stay post fixed mounting on the base.

The utility model has the advantages and positive effects that:

the utility model is provided with the drying mechanism, the crushing mechanism and the screening mechanism, so that the soil is crushed in advance before being dried, thereby not only being convenient for drying the soil as soon as possible, but also being convenient for classifying and collecting the soil; the first filter plate and the second filter plate in the suddenly static screening mechanism after drying are divided into three granularity levels of soil and collected, so that the use is convenient;

the utility model discloses a drying device collects crushing, dries and sieves in an organic whole, has both saved the volume of equipment, and the required time of processing soil that reduces again has improved the efficiency of soil treatment, and the normal clear of its detection of being convenient for can be used to soil real-time supervision.

Drawings

Fig. 1 is a schematic structural view of the drying device for soil detection of the present invention;

FIG. 2 is a schematic structural view of a drying mechanism in the drying device for soil detection of the present invention;

FIG. 3 is a schematic structural view of a screening mechanism in the drying device for soil detection of the present invention;

FIG. 4 is a schematic structural diagram of a crushing mechanism in the drying device for soil detection of the present invention;

FIG. 5 is a top view of the feeding disperser in the drying apparatus for soil detection of the present invention;

FIG. 6 is a control block diagram of the drying device for soil detection of the present invention;

in the figure: 1-base, 2-drying mechanism, 21-drying box, 22-heating plate, 23-turning auger, 24-motor support, 25-first servo motor, 26-drying feed inlet, 27-drying discharge pipe, 28-feed disperser, 281-feed hole, 29-connecting rod, 3-sieving mechanism, 31-sieving box, 32-first filter plate, 33-second filter plate, 34-first sieving discharge hole, 35-second sieving discharge hole, 36-third sieving discharge hole, 4-crushing mechanism, 41-feed pipe section, 411-feed inlet, 42-crushing pipe section, 421-leakage plate, 422-leakage hole, 423-support rod, 424-motor box, 425-second servo motor, 426-crushing knife, 43-discharge pipe section, 431-discharge hole, 5-controller, 51-first control button, 52-second control button, 6-first fixed support column, and 7-second fixed support column.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings.

Example (b):

as shown in fig. 1-6, a drying device for soil detection includes a base 1, a drying mechanism 2 and a screening mechanism 3 are fixedly mounted on the base 1, a crushing mechanism 4 is arranged on the top of the drying mechanism 2 in a communicating manner, a controller 5 is fixedly arranged on the top of the screening mechanism 3, the drying mechanism 2 is fixedly mounted on the base 1 through a first fixed support column 6, and the screening mechanism 3 is fixedly mounted on the base 1 through a second fixed support column 7. Wherein, set up rubbing crusher structure 4 and smash soil, smash for the graininess by bold soil, its stoving mechanism 2 is used for drying soil, and screening mechanism 3 is used for soil branch particle size screening separation to the soil that obtains corresponding particle size scope is convenient for detect goes on.

The drying mechanism 2 comprises a drying box 21, a heating plate 22 is fixedly arranged at the bottom of the drying box 21, the heating plate 22 heats and dries soil, a turnover auger 23 is arranged in the drying box 21, and the turnover auger 23 can drive the soil to change position when rotating, so that the heating plate can uniformly heat the soil; two ends of the turnover auger 23 respectively penetrate through the side wall of the drying box 21 and are rotatably connected with the side wall of the drying box 21; a first servo motor 25 is fixedly arranged on the side wall of the drying box 21 through a motor support 24, an output shaft of the first servo motor 25 is fixedly connected with one end of the turnover auger 23, and the first servo motor 25 is used for driving the turnover auger 23 to rotate; the fixed stoving feed inlet 26 that is provided with in top of stoving case 21, the lateral wall bottom intercommunication of stoving case 21 has stoving discharging pipe 27, stoving discharging pipe 27 is linked together with screening mechanism 3, be provided with the automatically controlled valve in the stoving discharging pipe 27, hot plate 22, automatically controlled valve and first servo motor 25 all with controller 5 electric connection, controller 5 control automatically controlled valve, hot plate 22, the operating condition of first servo motor 25 and second servo motor 425.

In this embodiment, a feeding disperser 28 is further fixedly disposed in the drying box 21, wherein the feeding disperser 28 has a conical surface structure and is provided with a plurality of feeding holes 281; the disperser 28 is used for dispersing the soil, so that the soil can be uniformly scattered on the heating plate 22 through the feeding hole 281 to prevent piling; the feeding disperser 28 is fixedly connected to the inner wall of the drying box 21 through four connecting rods 29, and the top wall of the drying box 21 is also provided with two vent holes which are convenient for discharging the heat gas in the drying box 21.

In this embodiment, the feed distributor 28 is located on the upper side of the inverting auger 23, and the inverting auger 23 is located on the upper side of the heating plate 22.

The crushing mechanism 4 sequentially comprises a feeding pipe section 41, a crushing pipe section 42 and a discharging pipe section 43 from top to bottom, the feeding pipe section 41 is used for feeding materials, the crushing pipe section 42 is used for crushing soil, the discharging pipe section 43 is used for discharging the soil into the drying mechanism 2, the feeding pipe section 41 and the crushing pipe section 42 are connected through flanges, and the crushing pipe section 42 and the discharging pipe section 43 are connected through flanges, so that the installation and the disassembly are convenient, and the maintenance and the cleaning are convenient; the fixed feed inlet 411 that is provided with in top of feed pipe section 41, the fixed bushing 421 that is provided with on the inner wall of crushing pipe section 42, it has a plurality of small openings 422 to open on the bushing 421, it is convenient for its crushing sword 426 to smash soil to set up the bushing 421, smash and filter out by small opening 422 behind certain particle diameter, still there is motor case 424 through bracing piece 423 fixed mounting on the inner wall of crushing pipe section 42, fixed mounting has second servo motor 425 in the motor case 424, the output shaft of second servo motor 425 runs through the arbor of motor case 424 fixedly connected with crushing sword 426, crushing sword 426 is located the upside of bushing 421, and run through the bushing 421, second servo motor 425 and controller 5 electric connection, second servo motor 425 is used for driving crushing sword 426 and rotates.

In this embodiment, ejection of compact pipeline section 43 becomes the funnel shape, sets up to the funnel shape and is convenient for discharge soil, and its bottom is fixed and is provided with discharge gate 431, is provided with the internal thread on the inner wall of stoving feed inlet 26, is provided with the external screw thread on the outer wall of discharge gate 431, stoving feed inlet 26 and discharge gate 431 thread tightening, and threaded connection fixes the effect better.

Wherein, screening mechanism 3 is including screening case 31, by last fixed first filter 32 and the second filter 33 of being provided with under to in the screening case 31, stoving discharging pipe 27 and screening case 31 intercommunication, and be located the upside of first filter 32, are provided with first screening discharge gate 34 and second screening discharge gate 35 on the lateral wall of screening case 31, are provided with third screening discharge gate 36 on the diapire of screening case 31. Wherein, different soil collection device are connected respectively to first screening discharge gate 34, second screening discharge gate 35 and third screening discharge gate 36, set up first filter 32 and second filter 33 and carry out twice filtration to soil, can obtain the stoving soil of three kinds of different particle size scopes according to the particle size, and the detection in the later stage of being convenient for can select the soil of corresponding particle size scope as required to detect.

In this embodiment, the first filter plate 32 and the second filter plate 33 are both disposed obliquely, which facilitates the flow of soil and further facilitates the separation, and the first screening discharge port 34 is disposed on the upper side of the oblique bottom end of the first filter plate 32, and the second screening discharge port 35 is disposed on the upper side of the oblique bottom end of the second filter plate 33; the diameter of the filter holes of the first filter plate 32 is larger than that of the second filter plate 33.

In the present embodiment, the controller 5 is provided with a first control button 51 and a second control button 52. The first control button 51 controls the operation of the equipment, namely controls the operation states of the first servo motor 25, the second servo motor 425 and the heating plate 22, the first control button 51 is started, signals of the first control button 51 are transmitted to the controller 5, and the controller 5 controls the first servo motor 25, the second servo motor 425 and the heating plate 22 to operate simultaneously; the second control button 52 controls the opening and closing of the electrically controlled valve.

Use the utility model discloses a during soil is dried to drying device:

firstly, respectively communicating a first screening discharge port 34, a second screening discharge port 35 and a third screening discharge port 36 with respective soil collecting devices so as to collect the dried soil sample according to the particle size to obtain a required soil sample;

secondly, pressing the first control button 51 to start the operation of the device, wherein the first servo motor 25 and the second servo motor 425 rotate to operate, and the heating plate 22 starts to heat;

thirdly, pouring the sampled soil into the feeding pipe section 41 through the feeding port 411, wherein the large-particle soil is placed above the bushing 421, the small-particle soil leaks into the discharging pipe section 43 through the leakage hole 422, meanwhile, the second servo motor 424 rotates to drive the crushing knife 426 to continuously rotate, the large-particle soil is cut by the crushing knife 426 to become small particles, which leak into the discharging pipe section 43 through the leakage hole 422, and then enter the drying box 21 through the discharging port 431 and the drying feeding port 26, the soil is uniformly scattered on the heating plate 22 through different feeding holes 281 under the dispersion action of the feeding disperser 28, the heating plate 22 heats the generated heat to dry the soil, the generated moisture and heat are discharged through vent holes on the drying box 21, when the soil in the heating box is large, the turnover auger 23 is driven to rotate to drive the soil to turn over and move due to the rotation of the first servo motor 25, continuously changing the soil which is in contact with the heating plate so that the soil is uniformly dried;

thirdly, when the drying is finished, the second control button 52 is pressed, the electric control valve in the drying discharge pipe 27 is opened, the dried soil enters the screening box 31 through the drying discharge pipe 27 under the driving action of the turning auger 23 and the self gravity action, the dried soil is firstly filtered by the first filter plate 32, the large-particle soil is left on the first filter plate 32 and is discharged into the corresponding collecting device through the first screening discharge port 34, the medium-particle soil is left on the second filter plate 33 through the first filter plate 32 and is discharged into the corresponding collecting device through the second screening discharge port 35, the small-particle soil falls downwards through the first filter plate 32 and the second filter plate 33 and is discharged into the corresponding collecting device through the third screening discharge port 36, the dried soil with different particle size ranges is collected by different collecting devices, and the soil with the corresponding particle size ranges can be selected for use according to needs.

The utility model discloses a drying device, simple to use directly obtains the soil of required granule particle diameter after drying, saves process time, and convenient to use detects, has improved efficiency.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention, and should not be considered as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (10)

1. A drying device for soil detection, including base (1), its characterized in that: a drying mechanism (2) and a screening mechanism (3) are fixedly mounted on the base (1), the top of the drying mechanism (2) is communicated with a crushing mechanism (4), and the top of the screening mechanism (3) is fixedly provided with a controller (5);

the drying mechanism (2) comprises a drying box (21), a heating plate (22) is fixedly arranged at the bottom of the drying box (21), an overturning packing auger (23) is arranged inside the drying box (21), and two ends of the overturning packing auger (23) penetrate through the side wall of the drying box (21) respectively and are rotatably connected with the side wall of the drying box (21); a first servo motor (25) is fixedly mounted on the side wall of the drying box (21) through a motor support (24), and an output shaft of the first servo motor (25) is fixedly connected with one end of the turnover packing auger (23); the fixed stoving feed inlet (26) that is provided with in top of stoving case (21), the lateral wall bottom intercommunication of stoving case (21) has stoving discharging pipe (27), stoving discharging pipe (27) with screening mechanism (3) are linked together, be provided with the automatically controlled valve in stoving discharging pipe (27), hot plate (22), automatically controlled valve and first servo motor (25) all with controller (5) electric connection.

2. The drying device for soil detection according to claim 1, wherein: still fixedly in stoving case (21) be provided with feeding deconcentrator (28), feeding deconcentrator (28) are in through four connecting rod (29) fixed connection on the inner wall of stoving case (21), still open two air vents on the roof of stoving case (21).

3. The drying device for soil detection according to claim 2, wherein: the feeding disperser (28) is located at the upper side of the turnover packing auger (23), and the turnover packing auger (23) is located at the upper side of the heating plate (22).

4. The drying device for soil detection according to claim 3, wherein: the feeding disperser (28) is of a conical surface structure and is provided with a plurality of feeding holes (281).

5. The drying device for soil detection according to claim 2, wherein: the crushing mechanism (4) sequentially comprises a feeding pipe section (41), a crushing pipe section (42) and a discharging pipe section (43) from top to bottom, and the feeding pipe section (41) is connected with the crushing pipe section (42) and the crushing pipe section (42) is connected with the discharging pipe section (43) through flanges; the fixed feed inlet (411) that is provided with in top of feeding pipe section (41), fixed bushing plate (421) that is provided with on the inner wall of smashing pipe section (42), it has a plurality of small openings (422) to open on bushing plate (421), still there is motor case (424) through bracing piece (423) fixed mounting on the inner wall of smashing pipe section (42), fixed mounting has second servo motor (425) in motor case (424), the output shaft of second servo motor (425) runs through the arbor of motor case (424) fixedly connected with crushing sword (426), crushing sword (426) are located the upside of bushing plate (421), and run through bushing plate (421), second servo motor (425) with controller (5) electric connection.

6. The drying device for soil detection according to claim 5, wherein: the controller (5) is provided with a first control button (51) and a second control button (52).

7. The drying device for soil detection according to claim 5, wherein: discharge tube section (43) become the funnel shape, and its bottom is fixed and is provided with discharge gate (431), be provided with the internal thread on the inner wall of stoving feed inlet (26), be provided with the external screw thread on the outer wall of discharge gate (431), stoving feed inlet (26) with discharge gate (431) thread tightening.

8. The drying device for soil detection according to claim 1, wherein: screening mechanism (3) are including screening case (31), by last fixed first filter (32) and second filter (33) of being provided with down in screening case (31), stoving discharging pipe (27) with screening case (31) intercommunication, and be located the upside of first filter (32), be provided with first screening discharge gate (34) and second screening discharge gate (35) on the lateral wall of screening case (31), be provided with third screening discharge gate (36) on the diapire of screening case (31).

9. The drying device for soil detection according to claim 8, wherein: the first filter plate (32) and the second filter plate (33) are obliquely arranged, the first screening discharge hole (34) is formed in the upper side of the oblique bottom end of the first filter plate (32), and the second screening discharge hole (35) is formed in the upper side of the oblique bottom end of the second filter plate (33); the diameter of the filter holes on the first filter plates (32) is larger than that of the filter holes on the second filter plates (33).

10. The drying device for soil detection according to claim 1, wherein: drying mechanism (2) through first fixed stay post (6) fixed mounting in on base (1), screening mechanism (3) through second fixed stay post (7) fixed mounting in on base (1).

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