CN109540953B

CN109540953B - Metal is flexible to support pressure formula detection device

Info

Publication number: CN109540953B
Application number: CN201811392914.1A
Authority: CN
Inventors: 孙颖
Original assignee: Dongtai High Tech Innovation Park Co Ltd
Current assignee: Dongtai High Tech Innovation Park Co Ltd
Priority date: 2018-11-21
Filing date: 2018-11-21
Publication date: 2021-04-30
Anticipated expiration: 2038-11-21
Also published as: CN109540953A

Abstract

The invention discloses a metal telescopic pressing type detection device which comprises a detection instrument, a connecting column, a telescopic assembly, a positioning assembly and a pressing mechanism, wherein the connecting column is arranged on the detection instrument; the invention is additionally provided with the abutting mechanism, the sleeving block in the abutting mechanism is sleeved on the outer side of the drive coil spring in a sliding manner, so that when the drive coil spring is stretched and moved, the drive coil spring can slide and stretch on the sleeving block and drive the sleeving block to move transversely, and the sleeving block can perform telescopic transition by using the abutting cylinder and the abutting elastic body, so that the running stability of the drive coil spring is ensured, and the drive coil spring cannot shake unstably.

Description

Metal is flexible to support pressure formula detection device

Technical Field

The invention relates to a metal telescopic abutting type detection device.

Background

The inorganic pollutants in the soil are relatively prominent in metal pollutants, mainly because the metal pollutants cannot be decomposed by soil microorganisms, are easy to accumulate and are converted into methyl compounds with higher toxicity, and even some methyl compounds are accumulated in a human body at harmful concentration through a food chain, so that the health of the human body is seriously harmed. At present, metal pollutants in soil are generally detected through a handheld X-ray fluorescence spectrometer, but the existing handheld X-ray fluorescence spectrometer cannot stretch out and draw back and rotate when being detected, so that the use flexibility and the convenience degree are limited.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the problems that: the metal telescopic abutting type detection device ensures that the driving coil spring is stable in stretching and rolling, stable in connection, stable in stretching and can be used rotatably.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

a metal stretching and pressing type detection device comprises a detection instrument, a connecting column, a stretching assembly, a positioning assembly and a pressing mechanism; the upper end of the connecting column is provided with a sliding cavity; the telescopic component comprises a connecting rod, a sliding block, a driving coil spring and a pressing screw rod; the sliding block is slidably clamped on the sliding cavity of the connecting column; one end of the connecting rod is inserted into the sliding cavity from one end of the connecting column, and the other end of the connecting rod is provided with a detector; one end of the connecting rod is provided with a rotary clamping block; one side of the bottom of the sliding block is provided with a rotary clamping groove; one end of the connecting rod is rotationally clamped in the rotary clamping groove at the bottom of the sliding block through the rotary clamping block; the driving coil spring is arranged in the sliding cavity of the connecting column; the other side of the bottom of the sliding block is pressed against the inner side surface of the driving coil spring; the positioning component is arranged at the upper end of the connecting column; the positioning component drives the sliding block to slide in the sliding cavity; the periphery of the rotary clamping block is provided with a pressing ring groove; the upper end of the sliding block is provided with a pressing thread groove; the pressing thread groove is communicated with the rotary clamping groove at the lower end; the pressing screw is in threaded connection with the pressing thread groove of the sliding block; the lower end of the abutting screw is rotatably abutted in the abutting ring groove of the rotary clamping block; the pressing mechanism is arranged in the sliding cavity of the connecting column; the pressing mechanism comprises a sleeving block, a pressing barrel and a pressing elastic body; the pressing cylinder is of a U-shaped structure; one end of the abutting elastic body is fixed on the inner side of the other end of the connecting column; the other end of the abutting elastic body is fixedly sleeved in the abutting cylinder; the outer side end of the pressing cylinder is provided with a sleeving block; the sleeve joint block is sleeved on the outer side of the drive coil spring in a sliding mode.

Furthermore, the telescopic assembly also comprises a mounting block and a locking screw rod; one end of the bottom of the sliding cavity of the connecting column is provided with an installation groove; the mounting block is fixedly mounted at the outer side end of the coil spring; the mounting block is inserted and mounted in the mounting groove of the sliding cavity; the bottom of the mounting block is provided with a threaded hole; the bottom of the mounting groove is communicated with a T-shaped through hole; the locking screw penetrates through the T-shaped through hole and is locked in the threaded hole at the bottom of the mounting block in a threaded mode.

Further, the sliding block extends to the outer side of the upper end of the sliding cavity.

Furthermore, the positioning assembly comprises a connecting screw rod, a driving nut and a connecting block; two sides of the upper end of the connecting column are respectively provided with a connecting block; a connecting screw rod is arranged between the connecting blocks; the upper end of the sliding block is in sliding connection with the connecting screw rod in a penetrating way; the connecting screw is in threaded sleeve connection with a driving nut; the driving nut is arranged on the connecting screw rod and rotationally extrudes one side of the driving sliding block, so that the sliding block moves on the connecting screw rod and the sliding cavity; when the driving nut rotates on the connecting screw rod to extrude the driving sliding block, the lower end of the sliding block can push the driving coil spring to enable the driving coil spring to perform elastic stretching movement.

Furthermore, the positioning assembly also comprises a limit nut; the limiting nut is sleeved on the connecting screw rod in a threaded manner; and the limiting nut is positioned on the other side of the sliding block.

Furthermore, the other end of the connecting column is provided with an opening and closing cover; the opening and closing cover seals and opens the sliding cavity.

The invention has the advantages of

The invention is additionally provided with the abutting mechanism, the sleeving block in the abutting mechanism is sleeved on the outer side of the drive coil spring in a sliding manner, so that when the drive coil spring is stretched and moved, the drive coil spring can slide and stretch on the sleeving block and drive the sleeving block to move transversely, and the sleeving block can perform telescopic transition by using the abutting cylinder and the abutting elastic body, so that the running stability of the drive coil spring is ensured, and the drive coil spring cannot shake unstably; the pressing screw rod can rotate and stretch in the pressing thread groove of the sliding block, so that the lower end of the pressing screw rod is rotated and pressed in the pressing thread groove of the rotary clamping block, and the connecting rod is locked through the pressing screw rod after the adjustment is finished, so that the connection between the connecting rod and the sliding block is more stable; the invention has ingenious structural design, the coil spring is movably arranged in the sliding cavity of the connecting column, the sliding block is clamped and slides on the sliding cavity of the connecting column, the lower end of the sliding block is attached to the side part of the coil spring, the upper end of the sliding block is connected to the connecting screw in a penetrating way, the sliding block is driven by the rotation of the driving nut to move on the sliding cavity and the connecting screw at the same time, the sliding block drives the coil spring to stretch, rotate and spread out at the same time, the coil spring always has an elastic driving force on the sliding block due to the winding restoring property of the coil spring, and when the driving nut rotates and moves in the opposite direction, the sliding block can drive the coil spring to push the sliding block to move in the opposite direction by using the winding restoring force of the coil spring so as to drive the connecting rod and; simultaneously, the one end of connecting rod is passed through the rotatory joint inslot of the rotatory joint of rotatory joint piece in the sliding block bottom, so realized the rotation of connecting rod and detection instrument.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of a partial structure of a drive coil spring, a mounting block and a connecting post of the present invention.

FIG. 3 is an enlarged view of the connection between the connecting rod and the sliding block according to the present invention.

Fig. 4 is an enlarged schematic structural view of the pressing mechanism of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 4, a metal stretching and pressing type detection device includes a detector 3, a connection column 1, a stretching assembly 2, a positioning assembly 4, and a pressing mechanism 6; the upper end of the connecting column 1 is provided with a sliding cavity 11; the telescopic assembly 2 comprises a connecting rod 23, a sliding block 22, a driving coil spring 21 and a pressing screw rod 26; the sliding block 22 is slidably clamped on the sliding cavity 11 of the connecting column; one end of the connecting rod 23 is inserted into the sliding cavity 11 from one end of the connecting column 1, and the other end of the connecting rod 23 is provided with the detector 3; one end of the connecting rod 23 is provided with a rotary clamping block 231; one side of the bottom of the sliding block 22 is provided with a rotary clamping groove 222; one end of the connecting rod 23 is rotatably clamped in the rotating clamping groove 222 at the bottom of the sliding block 22 through the rotating clamping block 231; the driving coil spring 21 is arranged in the sliding cavity 11 of the connecting column 1; the other side of the bottom of the sliding block 22 is pressed against the inner side surface of the driving coil spring 21; the positioning component 4 is arranged at the upper end of the connecting column 1; the positioning component 4 drives the sliding block 22 to slide on the sliding cavity 11. As shown in fig. 3, the periphery of the rotary clamping block 231 is provided with a pressing ring groove 232; the upper end of the sliding block 22 is provided with a pressing thread groove 221; the pressing thread groove 221 is communicated with the rotary clamping groove 222 at the lower end; the pressing screw 26 is connected in the pressing thread groove 221 of the sliding block 22 in a threaded manner; the lower end of the pressing screw 26 is rotatably pressed in the pressing ring groove 232 of the rotary clamping block 231. The pressing mechanism 6 is arranged in the sliding cavity 11 of the connecting column 1; the pressing mechanism 6 comprises a sleeving block 61, a pressing cylinder 62 and a pressing elastic body 63; the pressing cylinder 62 is of a U-shaped structure; one end of the abutting elastic body 63 is fixed on the inner side of the other end of the connecting column 1; the other end of the abutting elastic body 63 is fixedly sleeved in the abutting cylinder 62; the outer side end of the pressing cylinder 62 is provided with a sleeving block 61; the sleeve block 61 is slidably sleeved on the outer side of the drive coil spring 21.

As shown in fig. 1 to 4, it is further preferable that, in order to allow the driving coil spring 21 to be movably and stably installed in the sliding cavity 11, the telescopic assembly 2 further includes a mounting block 24 and a locking screw 25; one end of the bottom of the sliding cavity 11 of the connecting column 1 is provided with a mounting groove 12; the mounting block 24 is fixedly mounted at the outer end of the coil spring 21; the mounting block 24 is inserted into the mounting groove 12 of the sliding cavity; the bottom of the mounting block 24 is provided with a threaded hole 241; the bottom of the mounting groove 12 is communicated with a T-shaped through hole 13; the locking screw 25 is threaded through the T-shaped through hole 13 and is threadedly locked in the threaded hole 241 at the bottom of the mounting block 24. Further preferably, the sliding block 22 extends to the outside of the upper end of the sliding cavity 11. Further preferably, the positioning assembly 4 comprises a connecting screw 41, a driving nut 43, and a connecting block 42; two connecting blocks 42 are respectively arranged on two sides of the upper end of the connecting column 1; a connecting screw rod 41 is arranged between the connecting blocks 42; the upper end of the sliding block 22 is in sliding connection with the connecting screw rod 41; the connecting screw rod 41 is in threaded sleeve connection with a driving nut 43; the driving nut 43 rotates on the connecting screw rod 41 to extrude one side of the driving sliding block 22 and enables the sliding block 22 to move on the connecting screw rod 41 and the sliding cavity 11; when the driving nut 43 is rotated and presses the driving slider 22 on the connecting screw 41, the lower end of the slider 22 pushes the driving coil spring 21 to make the driving coil spring 21 perform elastic stretching movement. Further preferably, in order to limit the adjustment distance, the positioning assembly 4 further comprises a limit nut 44; the limit nut 44 is sleeved on the connecting screw rod 41 in a threaded manner; the limiting nut 44 is located on the other side of the sliding block 22. Preferably, the other end of the connecting column 1 is provided with an opening and closing cover 5; the opening and closing cover 5 closes and opens the sliding cavity 11.

According to the invention, the abutting mechanism 6 is additionally arranged, the sleeving block 61 in the abutting mechanism 6 is sleeved on the outer side of the driving coil spring 21 in a sliding manner, so that when the driving coil spring 21 is stretched and moved, the driving coil spring 21 can slide and stretch on the sleeving block 61 and drive the sleeving block 61 to move transversely, and the sleeving block 61 can perform telescopic transition by using the abutting cylinder 62 and the abutting elastic body 63, so that the running stability of the driving coil spring 21 is ensured, and the driving coil spring 21 cannot shake unstably; the pressing screw 26 can rotate and stretch in the pressing thread groove 221 of the sliding block 22, so that the lower end of the pressing screw 26 is rotatably pressed in the pressing ring groove 232 of the rotary clamping block 231, and after the adjustment is finished, the connecting rod 23 is locked through the pressing screw 26, so that the connecting rod 23 and the sliding block 22 are connected more stably; the invention has ingenious structural design, the driving coil spring 21 is movably arranged in the sliding cavity 11 of the connecting column 1, the sliding block 22 is clamped and slides on the sliding cavity 11 of the connecting column 1, the lower end of the sliding block 22 is attached to the side part of the driving coil spring 21, the upper end of the sliding block 22 is connected on the connecting screw rod 41 in a penetrating way, the sliding block 22 is driven by the rotation of the driving nut 43, so that the sliding block 22 simultaneously moves on the sliding cavity 11 and the connecting screw rod 41, the sliding block 22 drives the driving coil spring 21 to stretch and rotate and spread flatly while moving, because of the winding recovery property of the coil spring 21, the coil spring 21 always has an elastic driving force on the sliding block 22, when the driving nut 43 rotates and moves in the opposite direction, the sliding block 22 can utilize the winding recovery property of the coil spring 21 to drive the coil spring 21 to push the sliding block 22, the invention has stable driving, convenient operation and smart structure; simultaneously, the one end of connecting rod 23 is passed through the rotatory joint inslot of the rotatory joint of rotatory joint piece 231 in sliding block 22 bottom, has so realized the rotation of connecting rod and detection instrument.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A metal stretching and pressing type detection device is characterized by comprising a detector, a connecting column, a stretching assembly, a positioning assembly and a pressing mechanism; the upper end of the connecting column is provided with a sliding cavity; the telescopic component comprises a connecting rod, a sliding block, a driving coil spring and a pressing screw rod; the sliding block is slidably clamped on the sliding cavity of the connecting column; one end of the connecting rod is inserted into the sliding cavity from one end of the connecting column, and the other end of the connecting rod is provided with a detector; one end of the connecting rod is provided with a rotary clamping block; one side of the bottom of the sliding block is provided with a rotary clamping groove; one end of the connecting rod is rotationally clamped in the rotary clamping groove at the bottom of the sliding block through the rotary clamping block; the driving coil spring is arranged in the sliding cavity of the connecting column; the other side of the bottom of the sliding block is pressed against the inner side surface of the driving coil spring; the positioning component is arranged at the upper end of the connecting column; the positioning component drives the sliding block to slide in the sliding cavity; the periphery of the rotary clamping block is provided with a pressing ring groove; the upper end of the sliding block is provided with a pressing thread groove; the pressing thread groove is communicated with the rotary clamping groove at the lower end; the pressing screw is in threaded connection with the pressing thread groove of the sliding block; the lower end of the abutting screw is rotatably abutted in the abutting ring groove of the rotary clamping block; the pressing mechanism is arranged in the sliding cavity of the connecting column; the pressing mechanism comprises a sleeving block, a pressing barrel and a pressing elastic body; the pressing cylinder is of a U-shaped structure; one end of the abutting elastic body is fixed on the inner side of the end part of the sliding cavity of the connecting column; the other end of the abutting elastic body is fixedly sleeved in the abutting cylinder; the outer side end of the pressing cylinder is provided with a sleeving block; the sleeve joint block is sleeved on the outer side of the drive coil spring in a sliding mode.

2. The metal stretching and pressing type detection device as claimed in claim 1, wherein the stretching assembly further comprises a mounting block and a locking screw; one end of the bottom of the sliding cavity of the connecting column is provided with an installation groove; the mounting block is fixedly mounted at the outer side end of the coil spring; the mounting block is inserted and mounted in the mounting groove of the sliding cavity; the bottom of the mounting block is provided with a threaded hole; the bottom of the mounting groove is communicated with a T-shaped through hole; the locking screw penetrates through the T-shaped through hole and is locked in the threaded hole at the bottom of the mounting block in a threaded mode.

3. The metal stretching and pressing type detection device as claimed in claim 1, wherein the sliding block extends to the outside of the upper end of the sliding cavity.

4. The metal stretching and pressing type detection device according to claim 3, wherein the positioning assembly comprises a connecting screw rod, a driving nut and a connecting block; two sides of the upper end of the connecting column are respectively provided with a connecting block; a connecting screw rod is arranged between the connecting blocks; the upper end of the sliding block is in sliding connection with the connecting screw rod in a penetrating way; the connecting screw is in threaded sleeve connection with a driving nut; the driving nut is arranged on the connecting screw rod and rotationally extrudes one side of the driving sliding block, so that the sliding block moves on the connecting screw rod and the sliding cavity; when the driving nut rotates on the connecting screw rod to extrude the driving sliding block, the lower end of the sliding block can push the driving coil spring to enable the driving coil spring to perform elastic stretching movement.

5. The metal stretching and pressing type detection device as claimed in claim 4, wherein the positioning assembly further comprises a limit nut; the limiting nut is sleeved on the connecting screw rod in a threaded manner; and the limiting nut is positioned on the other side of the sliding block.

6. The metal stretching and pressing type detection device according to claim 1, wherein an opening and closing cover is arranged at the end part of the sliding cavity of the connecting column; the opening and closing cover seals and opens the sliding cavity.