CN213749876U - Soil environment detection device - Google Patents

Abstract

The utility model discloses a soil environment detection device, in particular to the technical field of environmental protection equipment, which comprises an adjusting box, the inner wall of the adjusting box is fixedly provided with an adjusting motor through a mounting seat, an output shaft of the adjusting motor is fixedly sleeved with a driving helical gear, the interior of the adjusting box is rotationally connected with a first transmission shaft and a second transmission shaft which are symmetrically distributed and penetrate through the adjusting box through a bearing, one ends of the first transmission shaft and the second transmission shaft close to the driving bevel gear are respectively fixedly sleeved with a first driven transmission bevel gear and a second driven transmission bevel gear, the first driven transmission bevel gear and the second driven transmission bevel gear are in meshed connection with the driving bevel gear, the side face of the adjusting box is fixedly connected with a first supporting frame and a second supporting frame which are symmetrically distributed, and a first screw rod is rotatably connected inside the first supporting frame through a bearing. The utility model discloses save check-out time, the increase detects the precision, improves detection efficiency.

Description

Soil environment detection device

Technical Field

The utility model relates to an environmental protection equipment technical field, more specifically say, the utility model relates to a soil environment detection device.

Background

Soil environment monitoring means that the environment quality (or pollution degree) and the change trend thereof are determined by measuring representative values of factors affecting the soil environment quality. Soil monitoring generally refers to soil environment monitoring, and generally comprises technical contents of distribution sampling, sample preparation, analysis methods, result characterization, data statistics, quality evaluation and the like.

But when in actual use, current soil environment detection device often can't adjust detecting instrument's height when using, has very big limitation to service environment, need expend and adjust detecting instrument for a long time, reduces detection efficiency, detects the precision simultaneously and can not obtain guaranteeing, need add the heavy object to fix to detecting device during operation simultaneously, is unfavorable for using widely.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-mentioned defect of prior art, the embodiment of the utility model provides a soil environment detection device, through setting up screw rod and screw thread slider, can carry out altitude mixture control to the detector ware according to actual need, save check-out time, the increase detects the precision, improves detection efficiency, sets up the locating plate simultaneously, fixes to detecting instrument, and the increase of being convenient for detects the precision, the quality of correct effectual detection soil environment to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a soil environment detection device, includes the regulating box, the inner wall of regulating box has the accommodate motor through mount pad fixed mounting, the fixed cover of output shaft of accommodate motor has connect the initiative helical gear, the inside of regulating box has first transmission shaft and the second transmission shaft that symmetric distribution just wore to locate the regulating box through bearing rotation connection, first transmission shaft and second transmission shaft are close to the one end of initiative helical gear and are fixed the cover respectively and have connect first driven transmission helical gear and the driven transmission helical gear of second, first driven transmission helical gear and the driven transmission helical gear of second are connected with the meshing of initiative helical gear.

Furthermore, the side fixedly connected with symmetric distribution's of regulating box first support frame and second support frame, the inside of first support frame is rotated through the bearing and is connected with first screw rod, the fixed cover in upper end surface of first screw rod has connected first driven helical gear, the fixed cover in one end surface that first transmission shaft stretches into first support frame inside has connected first initiative transmission helical gear, first initiative transmission helical gear is connected with the meshing of first driven helical gear, the bottom fixed mounting of first support frame and second support frame has the universal wheel.

Furthermore, the inside of the second support frame is rotatably connected with a second screw through a bearing, a second driven helical gear is fixedly sleeved on the surface of the upper end of the second screw, a second driving helical gear is fixedly sleeved on the surface of one end of the second transmission shaft extending into the inside of the second support frame, and the second driving helical gear is meshed with the second driven helical gear.

Furthermore, the inside of first support frame has first hollow screw slider through guide rail sliding connection, the inside of first hollow screw slider is connected with the surface thread meshing of first screw rod, the first bracing piece of side fixedly connected with of first hollow screw slider, the one end fixedly connected with detection case that first hollow screw slider was kept away from to first bracing piece.

Furthermore, the inside of second support frame has the hollow thread slider of second through guide rail sliding connection, the inside of hollow thread slider of second is connected with the surface meshing of second screw rod, the side fixedly connected with second bracing piece of hollow thread slider of second, the one end that second hollow thread slider was kept away from to the second bracing piece is fixedly connected with the side of detection case.

Furthermore, the inside fixedly connected with of detection case detects the motor, the output shaft fixedly connected with that detects the motor wears to locate the drill bit in the detection case.

Furthermore, one end of the first hollow threaded slider, which is far away from the first support rod, is fixedly connected with a first support rod, one end of the first support rod, which is far away from the first hollow threaded slider, is fixedly connected with a first positioning plate, a first threaded hole is formed in the first positioning plate, the internal threads of the first threaded hole are meshed with a first positioning screw, one end of the second hollow threaded slider, which is far away from the second support rod, is fixedly connected with a second support rod, one end of the second support rod, which is far away from the second hollow threaded slider, is fixedly connected with a second positioning plate, the second positioning plate is internally provided with a second threaded hole, and the internal threads of the second threaded hole are meshed with a second positioning screw.

The utility model discloses a technological effect and advantage:

1. through the arrangement of the adjusting box, compared with the prior art, the height of the detector can be adjusted according to actual needs by adjusting the work of the motor and utilizing the transmission mechanism, so that the detection time is saved, the detection precision is increased, and the detection efficiency is improved;

2. through setting up the locating plate, compare with prior art, fix detecting instrument, be convenient for increase detection precision, the quality of correct effectual detection soil environment.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the supporting frame of the present invention.

Fig. 3 is a schematic view of the structure of the adjusting box of the present invention.

The reference signs are: 1. an adjusting box; 2. adjusting the motor; 3. a driving bevel gear; 4. a first drive shaft; 5. a second drive shaft; 6. a first driven bevel gear; 7. a second driven bevel gear; 8. a first support frame; 9. a second support frame; 10. a first screw; 11. a first driven helical gear; 12. a first active drive bevel gear; 13. a second screw; 14. a second driven helical gear; 15. a second active drive bevel gear; 16. a first hollow threaded slider; 17. a first support bar; 18. a detection box; 19. a second hollow threaded slider; 20. a second support bar; 21. detecting a motor; 22. a drill bit; 23. a first support bar; 24. a first positioning plate; 25. a first threaded hole; 26. a first set screw; 27. a second support bar; 28. a second positioning plate; 29. a second threaded hole; 30. a second set screw; 31. a universal wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The soil environment detection device shown in the attached figures 1-3 comprises an adjusting box 1, an adjusting motor 2 is fixedly mounted on the inner wall of the adjusting box 1 through a mounting seat, a driving bevel gear 3 is fixedly sleeved on an output shaft of the adjusting motor 2, a first transmission shaft 4 and a second transmission shaft 5 which are symmetrically distributed and penetrate through the adjusting box 1 are rotatably connected inside the adjusting box 1 through bearings, a first driven transmission bevel gear 6 and a second driven transmission bevel gear 7 are respectively fixedly sleeved at one ends, close to the driving bevel gear 3, of the first transmission shaft 4 and the second transmission shaft 5, and the first driven transmission bevel gear 6 and the second driven transmission bevel gear 7 are meshed with the driving bevel gear 3.

In a preferred embodiment, a first support frame 8 and a second support frame 9 which are symmetrically distributed are fixedly connected to the side surface of the adjusting box 1, a first screw 10 is rotatably connected to the inside of the first support frame 8 through a bearing, a first driven helical gear 11 is fixedly sleeved on the upper end surface of the first screw 10, a first driving helical gear 12 is fixedly sleeved on one end surface of the first transmission shaft 4 extending into the inside of the first support frame 8, the first driving helical gear 12 is meshed with the first driven helical gear 11, universal wheels 31 are fixedly mounted at the bottoms of the first support frame 8 and the second support frame 9, so that the first transmission shaft 4 drives the first driving bevel gear 12 to rotate when rotating inside the first support frame 8 and the adjusting box 1, and the first driving bevel gear 12 is meshed with the first driven bevel gear 11 to drive the first driven bevel gear 11 and the first screw 10 to rotate inside the first support frame 8.

In a preferred embodiment, a second screw 13 is rotatably connected inside the second support frame 9 through a bearing, a second driven helical gear 14 is fixedly sleeved on an upper end surface of the second screw 13, a second driving helical gear 15 is fixedly sleeved on an end surface of the second transmission shaft 5 extending into the second support frame 9, and the second driving helical gear 15 is meshed with the second driven helical gear 14, so that when the second transmission shaft 5 rotates inside the second support frame 9 and the adjustment box 1, the second driving helical gear 15 is driven to rotate, and the second driven helical gear 14 and the second screw 13 are driven to rotate inside the second support frame 9 by the meshed connection of the second driving helical gear 15 and the second driven helical gear 14.

In a preferred embodiment, a first hollow threaded slider 16 is slidably connected to the inside of the first support frame 8 through a guide rail, the inside of the first hollow threaded slider 16 is engaged with the surface thread of the first screw 10, a first support rod 17 is fixedly connected to the side surface of the first hollow threaded slider 16, and a detection box 18 is fixedly connected to one end of the first support rod 17 away from the first hollow threaded slider 16, so that when the first screw 10 rotates inside the first support frame 8, the first hollow threaded slider 16 is engaged with the surface thread of the first screw 10 by using the inside of the first hollow threaded slider 16 to drive the first hollow threaded slider 16 to slide up and down inside the first support frame 8, and further drive the first support rod 17 and the detection box 18 to move up and down, so as to adjust the height of the detection box 18, further simplify the detection procedure and improve the detection efficiency.

In a preferred embodiment, a second hollow threaded slider 19 is slidably connected to the inside of the second support frame 9 through a guide rail, the inside of the second hollow threaded slider 19 is engaged with the surface of the second screw 13, a second support rod 20 is fixedly connected to the side surface of the second hollow threaded slider 19, and one end of the second support rod 20, which is away from the second hollow threaded slider 19, is fixedly connected to the side surface of the detection box 18, so that when the second screw 13 rotates inside the second support frame 9, the second hollow threaded slider 19 is engaged with the surface of the second screw 13 by using the inside of the second hollow threaded slider 19, so as to drive the second hollow threaded slider 19 to slide up and down inside the second support frame 9, and further drive the second support rod 20 and the detection box 18 to move up and down, so as to adjust the height of the detection box 18, further simplify the detection procedure, and improve the detection efficiency.

In a preferred embodiment, a detection motor 21 is fixedly connected to the inside of the detection box 18, and a drill 22 penetrating through the detection box 18 is fixedly connected to an output shaft of the detection motor 21, so that the detection motor 21 operates to drive the drill 22 to rotate, thereby performing drilling sampling detection on soil.

In a preferred embodiment, a first supporting rod 23 is fixedly connected to one end of the first hollow threaded slider 16 away from the first supporting rod 17, a first positioning plate 24 is fixedly connected to one end of the first supporting rod 23 away from the first hollow threaded slider 16, a first threaded hole 25 is formed in the first positioning plate 24, a first positioning screw 26 is connected to the first threaded hole 25 in a threaded engagement manner, a second supporting rod 27 is fixedly connected to one end of the second hollow threaded slider 19 away from the second supporting rod 20, a second positioning plate 28 is fixedly connected to one end of the second supporting rod 27 away from the second hollow threaded slider 19, a second threaded hole 29 is formed in the second positioning plate 28, a second positioning screw 30 is connected to the second threaded hole 29 in a threaded engagement manner, so that when the first hollow threaded slider 16 slides up and down in the first supporting rod 8, the first supporting rod 23 and the first positioning plate 24 are driven to move up and down, the internal thread meshing of the first threaded hole 25 is connected with a first positioning screw 26 to position and fix the detection device, and meanwhile, when the second hollow threaded slider 19 slides up and down in the second support frame 9, the second hollow threaded slider drives the second support rod 27 and the second positioning plate 28 to move up and down, and the internal thread meshing of the second threaded hole 29 is connected with a second positioning screw 30 to position and fix the detection device.

The utility model discloses the theory of operation: when the soil environment detection device is used, the adjusting motor 2 is controlled to work to drive the driving bevel gear 3 to rotate, the driving bevel gear 3 is meshed with the first driven bevel gear 6 and the second driven bevel gear 7 to drive the first driven bevel gear 6 and the second driven bevel gear 7 and the first transmission shaft 4 and the second transmission shaft 5 to rotate in the adjusting box 1, the first transmission shaft 4 drives the first driving bevel gear 12 to rotate when rotating in the first support frame 8 and the adjusting box 1, the first driving bevel gear 12 is meshed with the first driven bevel gear 11 to drive the first driven bevel gear 11 and the first screw rod 10 to rotate in the first support frame 8, the inner part of the first hollow thread slide block 16 is meshed with the surface thread of the first screw rod 10 to drive the first hollow thread slide block 16 to slide up and down in the first support frame 8, and further drives the first supporting rod 17 and the detection box 18 to move up and down, and adjusts the height of the detection box 18, thereby simplifying the detection procedure and improving the detection efficiency, meanwhile, when the second transmission shaft 5 rotates in the second supporting frame 9 and the adjusting box 1, the second driving bevel gear 15 is driven to rotate, the second driving bevel gear 15 is meshed with the second driven bevel gear 14, the second driven bevel gear 14 and the second screw 13 are driven to rotate in the second supporting frame 9, the inside of the second hollow thread slider 19 is meshed with the surface of the second screw 13, the second hollow thread slider 19 is driven to slide up and down in the second supporting frame 9, thereby driving the second supporting rod 20 and the detection box 18 to move up and down, and the height of the detection box 18 is adjusted, thereby simplifying the detection procedure and improving the detection efficiency, when the first hollow thread slider 16 slides up and down in the first supporting frame 8, drive first branch 23 and first locating plate 24 and reciprocate, the inside screw meshing that utilizes first screw hole 25 is connected with first locating screw 26, fix a position detection device, second hollow thread slider 19 slides from top to bottom in the inside of second support frame 9 simultaneously, drive second branch 27 and second locating plate 28 and reciprocate, the inside screw meshing that utilizes second screw hole 29 is connected with second locating screw 30, fix a position detection device and fix a position, work through detecting motor 21, drive drill bit 22 and rotate, and then bore to get the sampling inspection to soil.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the present invention, only the structures related to the disclosed embodiments are referred to, and other structures can refer to the common design, and under the condition of no conflict, the same embodiment and different embodiments of the present invention can be combined with each other;

and finally: the above description is only for the preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A soil environment detection device, includes regulating box (1), its characterized in that: the inner wall of regulating box (1) has adjusting motor (2) through mount pad fixed mounting, the output shaft of adjusting motor (2) is fixed to have cup jointed driving helical gear (3), the inside of regulating box (1) is connected with symmetric distribution through the bearing rotation and wears to locate first transmission shaft (4) and second transmission shaft (5) of regulating box (1), first driven transmission helical gear (6) and second driven transmission helical gear (7) have been fixed respectively to have cup jointed to the one end that first transmission shaft (4) and second transmission shaft (5) are close to driving helical gear (3), first driven transmission helical gear (6) and second driven transmission helical gear (7) are connected with driving helical gear (3) meshing.

2. A soil environment detecting device according to claim 1, wherein: the side fixedly connected with symmetric distribution's of regulating box (1) first support frame (8) and second support frame (9), the inside of first support frame (8) is rotated through the bearing and is connected with first screw rod (10), the fixed cover in upper end surface of first screw rod (10) has been cup jointed first driven helical gear (11), the fixed cover in one end surface that first transmission shaft (4) stretched into first support frame (8) inside has been cup jointed first initiative transmission helical gear (12), first initiative transmission helical gear (12) are connected with first driven helical gear (11) meshing, the bottom fixed mounting of first support frame (8) and second support frame (9) has universal wheel (31).

3. A soil environment detecting device according to claim 2, wherein: the inside of second support frame (9) is connected with second screw rod (13) through the bearing rotation, the fixed cover in upper end surface of second screw rod (13) has connect driven helical gear of second (14), second transmission shaft (5) stretch into the inside one end fixed surface of second support frame (9) and have cup jointed second initiative transmission helical gear (15), second initiative transmission helical gear (15) are connected with the driven helical gear of second (14) meshing.

4. A soil environment detecting device according to claim 3, wherein: the detection device is characterized in that a first hollow threaded slider (16) is connected to the inside of the first support frame (8) in a sliding mode through a guide rail, the inside of the first hollow threaded slider (16) is meshed with the surface threads of the first screw (10) in a meshed mode, a first support rod (17) is fixedly connected to the side face of the first hollow threaded slider (16), and a detection box (18) is fixedly connected to one end, far away from the first hollow threaded slider (16), of the first support rod (17).

5. A soil environment detecting device according to claim 4, wherein: the inside of second support frame (9) has second hollow thread slider (19) through guide rail sliding connection, the inside of second hollow thread slider (19) is connected with the surface meshing of second screw rod (13), the side fixedly connected with second bracing piece (20) of second hollow thread slider (19), the one end that second hollow thread slider (19) was kept away from in second bracing piece (20) is connected with the side fixed connection of detection case (18).

6. A soil environment detecting device according to claim 5, wherein: the interior fixedly connected with of detection case (18) detects motor (21), the output shaft fixedly connected with of detection motor (21) wears to locate drill bit (22) in detection case (18).

7. A soil environment detecting device according to claim 6, wherein: one end of the first hollow threaded sliding block (16) far away from the first supporting rod (17) is fixedly connected with a first supporting rod (23), one end of the first support rod (23) far away from the first hollow thread sliding block (16) is fixedly connected with a first positioning plate (24), a first threaded hole (25) is formed in the first positioning plate (24), a first positioning screw (26) is meshed and connected with the inner thread of the first threaded hole (25), one end of the second hollow threaded slide block (19) far away from the second support rod (20) is fixedly connected with a second support rod (27), one end of the second support rod (27) far away from the second hollow threaded slide block (19) is fixedly connected with a second positioning plate (28), a second threaded hole (29) is formed in the second positioning plate (28), and a second positioning screw (30) is engaged and connected with the inner thread of the second threaded hole (29).

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