CN219416799U - Soil heavy metal pollution check out test set - Google Patents

Abstract

The utility model relates to the field of environmental pollution detection equipment, in particular to soil heavy metal pollution detection equipment, which comprises a stand and a sampling assembly, wherein the sampling assembly comprises a stand, a first motor, a screw rod, a connecting block, a supporting arm, a rotating member and a detection drill bit, the stand is fixedly connected with the stand and is positioned at one side of the stand, the first motor is arranged at the inner side of the stand, the screw rod is fixedly connected with the output end of the first motor and is positioned at the inner side of the stand, the connecting block is sleeved at the outer side of the screw rod and is in threaded connection with the screw rod and is in sliding connection with the stand, the supporting arm is connected with the connecting block through a bolt and is positioned at one side of the connecting block, which is far away from the screw rod, the rotating member is arranged on the supporting arm, and the detection drill bit is connected with the supporting arm through the rotating member.

Description

Soil heavy metal pollution check out test set

Technical Field

The utility model relates to the field of environmental pollution detection equipment, in particular to soil heavy metal pollution detection equipment.

Background

Soil heavy metal exceeds standard and brings direct injury to crops, can restrain vegetation, leads to the plant death, and traditional soil heavy metal detects needs artifical soil of collecting, and work efficiency is low, and is difficult for collecting deep soil.

The prior art CN215910131U discloses a soil pollution check out test set, including the detection case, detection case top fixedly connected with a plurality of solar charging panels, detection case surface is equipped with the display screen, main hydraulic stem extension fixedly connected with soil is collected and is detected the post, soil is collected and is detected the terminal fixedly connected with drill bit of post, the inside sampling groove that is equipped with of post is collected to soil, sampling groove terminal fixedly connected with is followed the hydraulic stem, soil is collected and is detected the post surface and is close to drill bit fixedly connected with soil moisture detection sensor, soil is collected and is detected post surface fixedly connected with soil heavy metal detection sensor, soil heavy metal detection sensor bottom fixedly connected with soil PH detection sensor, soil pollution detection has only been solved through design and innovation and the interference error scheduling problem that the inconvenient post-detection washing caused can be detected to the top layer soil.

To prior art's soil pollution check out test set, because prior art is through hydraulic stem promotion drill bit entering soil, the drill bit can't rotate, when sampling the harder soil of geology, is difficult for going deep into soil, samples deep soil.

Disclosure of Invention

The utility model aims to provide soil heavy metal pollution detection equipment, which solves the problems that in the prior art, a drill bit is pushed to enter soil through a hydraulic rod, the drill bit cannot rotate, and when the soil with harder geology is sampled, the drill bit is not easy to penetrate into the soil, and the soil with deep level is sampled.

In order to achieve the above purpose, the utility model provides a soil heavy metal pollution detection device, which comprises a frame and a sampling assembly, wherein the sampling assembly comprises a stand column, a first motor, a screw rod, a connecting block, a supporting arm, a rotating member and a detection drill bit, the stand column is fixedly connected with the frame and is positioned on one side of the frame, the first motor is arranged on the inner side of the stand column, the screw rod is fixedly connected with the output end of the first motor and is positioned on the inner side of the stand column, the connecting block is sleeved on the outer side of the screw rod and is in threaded connection with the screw rod and is in sliding connection with the stand column, the supporting arm is connected with the connecting block through a bolt and is positioned on one side of the connecting block far away from the screw rod, the rotating member is arranged on the supporting arm, and the detection drill bit is connected with the supporting arm through the rotating member.

The upright post is provided with a sliding groove, and the sliding groove is positioned at one side of the upright post, which is close to the connecting block; the connecting block is provided with a protrusion, and the protrusion is matched with the sliding groove.

The rotating member comprises a shaft sleeve, a detection rod and a driving piece, wherein the shaft sleeve is arranged on the supporting arm and is positioned at one side of the supporting arm away from the connecting block; the detection rod penetrates through the shaft sleeve, is rotationally connected with the shaft sleeve and is fixedly connected with the detection drill bit; the driving piece drives the detection rod to rotate.

The driving piece comprises a supporting plate and a second motor, wherein the supporting plate is fixedly connected with the supporting arm and is positioned at one side of the supporting arm, which is close to the detection rod; the second motor is installed on the supporting plate, and an output shaft of the second motor is fixedly connected with the detection rod.

The sampling assembly further comprises a stabilizing support and a mud scraping ring sleeve, wherein the stabilizing support is fixedly connected with the upright post, is positioned on one side of the upright post, which is close to the detection rod, and is in sliding connection with the detection rod; the mud scraping ring sleeve is fixedly connected with the stable support and is positioned at the bottom of the stable support.

The utility model discloses soil heavy metal pollution detection equipment, which comprises a stand and a sampling assembly, wherein the sampling assembly comprises a stand, a first motor, a screw rod, a connecting block, a supporting arm, a rotating member and a detection drill bit, the stand is fixedly connected with the stand and is positioned at one side of the stand, the first motor is arranged at the inner side of the stand, the screw rod is fixedly connected with the output end of the first motor and is positioned at the inner side of the stand, the connecting block is sleeved at the outer side of the screw rod and is in threaded connection with the screw rod and is in sliding connection with the stand, the supporting arm is connected with the connecting block through a bolt and is positioned at one side of the connecting block far away from the screw rod, the rotating member is arranged on the supporting arm, and the detection drill bit is connected with the supporting arm through the rotating member.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic view showing the overall structure of a soil heavy metal pollution detecting apparatus according to a first embodiment of the present utility model.

Fig. 2 is a schematic structural view of the column and the connection block according to the first embodiment of the present utility model.

Fig. 3 is a schematic view showing the overall structure of a soil heavy metal pollution detecting apparatus according to a second embodiment of the present utility model.

In the figure: 101-frame, 102-stand, 103-first motor, 104-screw, 105-connecting block, 106-supporting arm, 107-sliding groove, 108-protrusion, 109-axle sleeve, 110-detecting rod, 111-supporting plate, 112-second motor, 113-detecting drill bit, 201-stable bracket, 202-mud scraping ring cover.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

The first embodiment of the application is as follows:

referring to fig. 1 and 2, fig. 1 is a schematic view of the overall structure of a soil heavy metal pollution detection device according to a first embodiment of the present utility model, and fig. 2 is a schematic view of the structure of a column 102 and a connection block 105 according to the first embodiment of the present utility model.

The soil heavy metal pollution detection equipment comprises a frame 101, an upright post 102, a first motor 103, a screw 104, a connecting block 105, a supporting arm 106, a sliding groove 107, a bulge 108, a shaft sleeve 109, a detection rod 110, a supporting plate 111, a second motor 112 and a detection drill bit 113, and solves the problems that the drill bit cannot rotate because the drill bit is pushed to enter soil by a hydraulic rod in the prior art, and the drill bit is not easy to penetrate into soil and sample deep soil when the soil with harder geology is sampled. It can be appreciated that the foregoing solution solves the problem that the drill bit cannot rotate and is not easy to sample the soil of harder geology in the prior art, and can also be used for improving the drilling sampling speed and improving the working efficiency.

In this embodiment, frame 101 is the cuboid, and the bottom is provided with the supporting leg, be provided with the universal wheel on the supporting leg, can be convenient right frame 101 removes, still be provided with the battery on the frame 101 for provide the electric energy, sampling assembly installs on the frame 101, through sampling assembly to solved because prior art is through hydraulic stem promotion drill bit entering soil, the drill bit can't rotate, when sampling the harder soil of geology, be difficult for deep into soil, sample the problem of deep soil.

Wherein the upright post 102 is fixedly connected with the stand 101 and is positioned at one side of the stand 101, the first motor 103 is installed at the inner side of the upright post 102, the screw 104 is fixedly connected with the output end of the first motor 103 and is positioned at the inner side of the upright post 102, the connecting block 105 is sleeved at the outer side of the screw 104 and is in threaded connection with the screw 104 and is in sliding connection with the upright post 102, the supporting arm 106 is connected with the connecting block 105 through a bolt and is positioned at one side of the connecting block 105 far away from the screw 104, the rotating member is installed on the supporting arm 106, the detecting drill bit 113 is connected with the supporting arm 106 through the rotating member, the upright post 102 is a rectangular body with an inner cavity and is vertically installed at the top of the stand 101 through a welding mode, the first motor 103 is fixedly installed at the bottom of the inner side of the upright post 102, the first motor 103 is electrically connected with the storage battery, the storage battery supplies power for the first motor 103, the screw 104 is installed inside the upright 102 through two brackets, the two brackets are respectively positioned at two ends of the screw 104, are connected with the screw 104 through bearings and provide support for the screw 104, the output end of the screw 104 is fixedly connected with the output shaft of the first motor 103, the screw 104 is driven to rotate through the first motor 103, the connecting block 105 is provided with a threaded hole, the connecting block 105 is connected with the screw 104 through the threaded hole, the supporting arm 106 is a rectangular body, the supporting arm 106 is connected with the connecting block 105 through bolts, the supporting arm 106 moves along with the movement of the connecting block 105, the rotating member is installed on the supporting arm 106, the support arm 106 is right the rotating member supports, detect the drill bit 113 and be prior art, it has soil metal to detect sensor to detect on the drill bit 113, can detect the heavy metal pollution of soil, still be provided with the sampling groove on the detect drill bit 113, can sample deep soil, through first motor 103 drive screw rod 104 rotates for support arm 106 vertical movement, thereby drive detect drill bit 113 stretches into in the soil and detects and sample, solved because prior art is through hydraulic stem promotion drill bit entering soil, the drill bit can't rotate, when sampling the harder soil of geology, is difficult for deep soil, samples deep soil's problem.

Secondly, the sliding groove 107 is located on one side of the upright post 102, which is close to the connecting block 105, the protrusion 108 is matched with the sliding groove 107, the connecting block 105 is slidably connected with the upright post 102 through the protrusion 108, the sliding groove 107 limits the connecting block 105, so that when the screw 104 rotates, the connecting block 105 cannot rotate along with the sliding groove 107 and the protrusion 108, and the screw 104 rotates and drives the connecting block 105 to vertically move.

Meanwhile, the shaft sleeve 109 is mounted on the supporting arm 106 and is positioned on one side of the supporting arm 106 away from the connecting block 105; the detection rod 110 penetrates through the shaft sleeve 109, is rotationally connected with the shaft sleeve 109, and is fixedly connected with the detection drill bit 113; the driving piece drives the detection rod 110 to rotate, the shaft sleeve 109 is circular, the shaft sleeve 109 penetrates through the support arm 106 and is fixedly connected with the support arm 106, a bearing is arranged inside the shaft sleeve 109, the detection rod 110 penetrates through an inner ring of the bearing and is fixedly connected with an inner ring of the bearing, so that the detection rod 110 can freely rotate, the bottom of the detection rod 110 is fixedly connected with the detection drill bit 113, the driving piece drives the detection rod 110 to rotate, and the driving piece can drive the detection rod 110 to rotate through the shaft sleeve 109, so that the rotation of the detection drill bit 113 is realized.

In addition, the supporting plate 111 is fixedly connected with the supporting arm 106, and is located at one side of the supporting arm 106 near the detecting rod 110; the second motor 112 is installed on the supporting plate 111, the output shaft of the second motor 112 is fixedly connected with the detecting rod 110, the supporting plate 111 is L-shaped, the supporting plate 111 is fixedly installed at the top of the supporting arm 106, the second motor 112 is installed on the supporting plate 111 through bolts, the supporting plate 111 supports the second motor 112, the second motor 112 is electrically connected with the storage battery, the output end of the second motor 112 is fixedly connected with the detecting rod 110, and the detecting rod 110 is driven to rotate through the second motor 112 so as to drive the detecting drill bit 113 to rotate.

In this embodiment, when needs detect and sample soil, will frame 101 promotes to the sample point, starts first motor 103, first motor 103 action drives screw rod 104 rotates, makes the vertical downwardly moving of connecting block 105, simultaneously, second motor 112 action drives detect pole 110 rotates, detect bit 113 installs the bottom of detect pole 110, thereby drive detect bit 113 rotates, realizes detect bit 113 can rotate when going deep into the soil, has solved because prior art is through hydraulic stem promotion bit entering soil, and the drill bit can't rotate, when sampling the harder soil of geology, is difficult for going deep into the soil, samples the problem of deep soil.

The second embodiment of the present application is:

referring to fig. 3, fig. 3 is a schematic overall structure of a soil heavy metal pollution detection device according to a second embodiment of the present utility model, and on the basis of the first embodiment, the soil heavy metal pollution detection device further includes a stabilizing support 201 and a mud scraping ring 202.

In this embodiment, the sampling assembly further includes a stabilizing support 201 and a mud scraping ring 202, which can stabilize the detection rod 110.

The stabilizing support 201 is fixedly connected with the upright post 102, is positioned at one side of the upright post 102 close to the detection rod 110, and is slidably connected with the detection rod 110; the mud scraping ring 202 is fixedly connected with the stabilizing support 201 and is located at the bottom of the stabilizing support 201, the stabilizing support 201 is mounted on the side face of the upright post 102 in a welded mode, the stabilizing support 201 is provided with a through hole, the detecting rod 110 is in sliding connection with the stabilizing support 201 through the through hole, the mud scraping ring 202 is located at the bottom of the stabilizing support 201, soil adhered to the detecting rod 110 can be scraped, the stabilizing support 201 plays a role in acting the detecting rod 110, and shaking of the detecting rod 110 during working can be reduced.

In this embodiment, the stabilizing support 201 is mounted on the upright post 102, so that the sliding of the detecting rod 110 during working can be reduced, after the soil is detected or sampled, the detecting rod 110 moves upwards, meanwhile, the mud scraping ring 202 can scrape the soil adhered to the detecting rod 110, and the stability of the detecting rod 110 can be ensured while the detecting rod 110 is cleaned through the stabilizing support 201 and the mud scraping ring 202.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application and is not intended to limit the scope of the claims hereof, as it is to be understood by those skilled in the art that all or part of the process of implementing the described embodiment may be practiced otherwise than as specifically described and illustrated by the appended claims.

Claims (5)

1. The equipment for detecting the heavy metal pollution of the soil comprises a frame and is characterized in that,

the device also comprises a sampling assembly;

the sampling assembly comprises a stand column, a first motor, a screw rod, a connecting block, a supporting arm, a rotating member and a detection drill bit, wherein the stand column is fixedly connected with the stand and is positioned on one side of the stand, the first motor is installed on the inner side of the stand column, the screw rod is fixedly connected with the output end of the first motor and is positioned on the inner side of the stand column, the connecting block is sleeved on the outer side of the screw rod and is in threaded connection with the screw rod and is in sliding connection with the stand column, the supporting arm is connected with the connecting block through a bolt and is positioned on one side, away from the screw rod, of the connecting block, the rotating member is installed on the supporting arm, and the detection drill bit is connected with the supporting arm through the rotating member.

2. The apparatus for detecting heavy metal pollution of soil according to claim 1,

the upright post is provided with a sliding groove, and the sliding groove is positioned at one side of the upright post, which is close to the connecting block; the connecting block is provided with a protrusion, and the protrusion is matched with the sliding groove.

3. The apparatus for detecting heavy metal pollution of soil according to claim 1,

the rotating member comprises a shaft sleeve, a detection rod and a driving piece, wherein the shaft sleeve is arranged on the supporting arm and is positioned at one side of the supporting arm away from the connecting block; the detection rod penetrates through the shaft sleeve, is rotationally connected with the shaft sleeve and is fixedly connected with the detection drill bit; the driving piece drives the detection rod to rotate.

4. The apparatus for detecting heavy metal pollution of soil according to claim 3,

the driving piece comprises a supporting plate and a second motor, wherein the supporting plate is fixedly connected with the supporting arm and is positioned at one side of the supporting arm, which is close to the detection rod; the second motor is installed on the supporting plate, and an output shaft of the second motor is fixedly connected with the detection rod.

5. The apparatus for detecting heavy metal pollution of soil according to claim 3,

the sampling assembly further comprises a stabilizing support and a mud scraping ring sleeve, wherein the stabilizing support is fixedly connected with the upright post, is positioned on one side of the upright post, which is close to the detection rod, and is in sliding connection with the detection rod; the mud scraping ring sleeve is fixedly connected with the stable support and is positioned at the bottom of the stable support.