CN220626096U - High-quality high-purity noble metal density detection device - Google Patents

Abstract

The utility model relates to a detection device for high-quality high-purity noble metal density, which aims to solve the technical problem that the current water hanging method cannot detect the high-quality high-purity noble metal density, and comprises an electronic balance, wherein a suspension mechanism is arranged on the electronic balance, a water hanging groove is formed in the suspension mechanism, a sliding rail is arranged at the bottom end of the water hanging groove, and a stabilizing frame is arranged at the bottom end of the sliding rail; the utility model relates to a high-purity noble metal density detection device, which comprises a hanging mechanism, a supporting frame and a base, wherein the base is arranged on an electronic balance, the bottom end of the supporting frame is connected with the top end of the base, and the hanging mechanism is arranged on the electronic balance.

Description

High-quality high-purity noble metal density detection device

Technical Field

The utility model relates to the technical field of inspection and detection, in particular to a detection device for high-quality high-purity noble metal density.

Background

Water lifting is often used in the detection of solid gold articles. According to archimedes' principle, the density of a sample can be calculated by definition by measuring the mass of the sample in air by means of a balance and by measuring the volume of the sample in a liquid, using hydrostatic weighing. Distilled water, laboratory grade water or equivalent quality water is generally used as the liquid medium for the assay.

The existing measurement of noble metal density generally adopts a beaker as a noble metal density measurement container, and in the actual detection process, noble metal with larger mass and volume is often required to be measured, the conventional beaker cannot be used for detection, and the diameter of the existing detection instrument hanging wire cannot be accurately matched with different noble metal products with large mass, so that the detection device for the high-quality and high-purity noble metal density is provided.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, adapt to the actual needs, and provide a detection device for high-quality high-purity noble metal density, so as to solve the technical problem that the current water hanging method cannot detect the high-quality high-purity noble metal density.

In order to achieve the purpose of the utility model, the technical scheme adopted by the utility model is as follows: the detection device comprises an electronic balance, wherein a suspension mechanism is arranged on the electronic balance, a water suspension groove is formed in the suspension mechanism, a sliding rail is arranged at the bottom end of the water suspension groove, and a stabilizing frame is arranged at the bottom end of the sliding rail; the suspension mechanism comprises a hanging bracket, a supporting frame and a base, wherein the base is arranged on the electronic balance, the bottom end of the supporting frame is connected with the top end of the base, and the bottom end of the hanging bracket is connected with the top end of the supporting frame.

Preferably, a plurality of hanging holes are formed in the hanging frame, slings are arranged on the hanging holes in a penetrating mode, and the bottom ends of the slings are hung with the carrying plates.

Preferably, the top end of the sling is provided with a plurality of locking devices, and the locking devices are arranged at the top end of the hanging bracket.

Preferably, the latch radius is greater than the hanging hole radius.

Preferably, the stabilizing frame comprises a frame body and a plurality of stabilizing rods, wherein the frame body is arranged inside the hanging frame, two ends of the frame body extend out of the hanging frame, and the top ends of the stabilizing rods are connected with the bottom ends of the frame body extending out of the hanging frame part.

Preferably, a gap is reserved between the bottom of the stabilizer bar and the bottom of the electronic balance.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the structure of the existing high-purity noble metal density detection device is improved, the suspension mechanism is arranged on the electronic balance, the object loading plate is suspended in the water suspension groove by using the suspension rope on the suspension frame of the suspension mechanism, and the object loading plate is suspended in the water suspension groove, so that the defect that the existing water suspension method for measuring the high-quality high-purity noble metal density is not provided with a supporting bracket, a container and the like, and the high-purity noble metal density detection device is not limited to detecting a small gram weight sample, has a simple structure and is beneficial to practical measurement.

2. According to the utility model, the slide rail is arranged below the water hanging groove, the water hanging groove is slid out from the side by using the slide rail, and as the water spray cannot be splashed or residual liquid cannot be left on the inner wall of the water hanging groove when water is injected into the water hanging groove in actual measurement, the operation space of the water hanging groove is enlarged by using the slide rail to slide out, so that the water temperature measurement by using the water temperature meter is faster and more convenient.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of the front structure of the present utility model;

FIG. 3 is a schematic side view of the present utility model;

FIG. 4 is a schematic top view of the present utility model;

FIG. 5 is a state diagram of the present utility model;

in the figure: 1. an electronic balance; 2. a suspension mechanism; 3. a water hanging groove; 4. a slide rail; 5. a stabilizing rack;

201. a hanging bracket; 202. a support frame; 203. a base; 204. a hanging hole; 205. a sling; 206. a carrying plate; 207. a latch;

501. a frame body; 502. a stabilizer bar.

Detailed Description

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

examples: the device for detecting the density of the high-quality high-purity noble metal comprises an electronic balance 1, wherein a suspension mechanism 2 is arranged on the electronic balance 1, a water suspension groove 3 is arranged in the suspension mechanism 2, a sliding rail 4 is arranged at the bottom end of the water suspension groove 3, and a stabilizing frame 5 is arranged at the bottom end of the sliding rail 4; the suspension mechanism 2 comprises a hanging bracket 201, a supporting frame 202 and a base 203, wherein the base 203 is arranged on the electronic balance 1, the bottom end of the supporting frame 202 is connected with the top end of the base 203, and the bottom end of the hanging bracket 201 is connected with the top end of the supporting frame 202. According to the utility model, the structure of the existing high-purity noble metal density detection device is improved, the suspension mechanism 2 is arranged on the electronic balance 1, the object carrying plate 206 is suspended on the suspension frame 201 of the suspension mechanism 2 by the suspension rope 205, and the object carrying plate 206 is suspended in the water suspension tank 3, so that the defects of no supporting bracket, container and the like in the existing water suspension method for measuring the high-quality high-purity noble metal density are overcome, the high-purity noble metal density detection device is not limited to detecting a small gram weight sample, and the structure is simple and is beneficial to practical measurement.

Specifically, as shown in fig. 1, a plurality of hanging holes 204 are formed in a hanging frame 201, slings 205 are arranged on the hanging holes 204 in a penetrating manner, and a carrying plate 206 is hung at the bottom end of each sling 205. In the utility model, four hanging holes 204 are formed in the top end of a hanging bracket 201, four slings 205 are respectively penetrated in the four hanging holes 204, and the four slings 205 are respectively connected with four corners of a carrying plate 206, so that the carrying plate 206 is hoisted under the hanging bracket 201, the carrying plate 206 is hoisted in a water hanging groove 3, and the carrying plate 206 is used for carrying precious metals to be detected.

Further, referring to fig. 1 to 5, the top end of the sling 205 is provided with a plurality of stoppers 207, and the stoppers 207 are provided at the top end of the hanger 201. In the utility model, the four slings 205 are provided with the locking devices 207, the locking devices 207 are used for zooming the length of the slings 205, and when the water hanging groove 3 needs to slide out from the side through the sliding rail 4, the length of the slings 205 is shortened by the locking devices 207, so that the water injection and temperature measurement are facilitated when the water hanging groove 3 slides out.

Still further, the radius of the latch 207 is greater than the radius of the hanging hole 204. The radius of the locking device 207 is larger than that of the hanging hole 204, so that the locking device 207 can move up and down on the hanging rope 205 to change the height of the carrying plate 206.

It should be noted that, referring to fig. 1 and 2, the stabilizer 5 includes a frame 501 and a plurality of stabilizer bars 502, the frame 501 is disposed inside the hanger 201, two ends of the frame 501 extend out of the hanger 201, and top ends of the stabilizer bars 502 are connected to bottom ends of portions of the frame 501 extending out of the hanger 201. According to the utility model, two ends of the frame body 501 extend out of two ends of the hanging frame 201, and the bottom ends of two sides of the frame body 501 are provided with the stabilizing rods 502, so that when water and liquid are filled in the water hanging groove 3, the water hanging groove 3 is prevented from shaking and dumping, and the stability of the structure is improved.

It is noted that, as shown in fig. 2 and 3, a gap is left between the bottom of the stabilizer bar 502 and the bottom of the electronic balance 1. According to the utility model, the stabilizer bar 502 does not contact a tabletop during measurement, and a base plate can be taken to be padded on the bottom surface of the stabilizer bar 502 during water injection and measurement object placement, so that the device is prevented from falling down.

Working principle: when the water quality measuring device is used, firstly, the stabilizer bar 502 is not contacted with a tabletop during measurement, when water is injected into the water hanging groove 3 and a measured object is placed, a base plate can be taken to be padded on the bottom surface of the stabilizer bar 502, the device is prevented from toppling, as the locking devices 207 are arranged on the hanging groove 205, the locking devices 207 are used for zooming the length of the hanging groove 205, when the water hanging groove 3 needs to slide out from the side surface through the sliding rail 4, the length of the hanging groove 205 is shortened by the locking devices 207, the water hanging groove 3 is facilitated to slide out for water injection and temperature measurement, the sliding rail 4 is used for sliding out the water hanging groove 3 from the side surface, and as water flowers cannot be splashed during actual measurement and water injection into the water hanging groove 3 or residual liquid cannot be reserved on the inner wall of the water hanging groove 3, the operation space is enlarged by the sliding rail 4, the water hanging groove 3 is prevented from sliding out, the water temperature is measured more quickly and conveniently by using the water temperature meter, a measured object is placed on the carrier plate 206, as the top end of the hanging groove 201 is provided with four hanging holes 204, four hanging holes 204 are respectively penetrated into the hanging groove 205, four hanging groove 205 are connected with four hanging groove 206, the hanging groove 206 are respectively, and the hanging groove 206 is connected with the hanging groove 206, the hanging groove is used for carrying the water quality measuring device, the water quality is used for carrying the water quality measuring device, and the water quality measuring device is placed in the water, and the water quality measuring device is used for carrying, and the water quality measuring, and the quality measuring device is used for carrying, and the quality measuring.

The embodiments of the present utility model are disclosed as preferred embodiments, but not limited thereto, and those skilled in the art will readily appreciate from the foregoing description that various modifications and variations can be made without departing from the spirit of the present utility model.

Claims (6)

1. The detection device for the high-quality high-purity noble metal density is characterized by comprising an electronic balance (1), wherein a suspension mechanism (2) is arranged on the electronic balance (1), a water suspension groove (3) is formed in the suspension mechanism (2), a sliding rail (4) is arranged at the bottom end of the water suspension groove (3), and a stabilizing frame (5) is arranged at the bottom end of the sliding rail (4);

the suspension mechanism (2) comprises a hanging frame (201), a supporting frame (202) and a base (203), wherein the base (203) is arranged on the electronic balance (1), the bottom end of the supporting frame (202) is connected with the top end of the base (203), and the bottom end of the hanging frame (201) is connected with the top end of the supporting frame (202).

2. The high-quality high-purity noble metal density detection device according to claim 1, wherein a plurality of hanging holes (204) are formed in the hanging frame (201), slings (205) are arranged on the hanging holes (204) in a penetrating mode, and a carrying plate (206) is hung at the bottom end of each sling (205).

3. A device for detecting the density of high-quality and high-purity noble metals according to claim 2, characterized in that a plurality of locking devices (207) are arranged at the top end of the sling (205), and the locking devices (207) are arranged at the top end of the hanging bracket (201).

4. A high quality, high purity noble metal density detector according to claim 3, wherein said lock (207) has a radius greater than said hanger hole (204).

5. The device for detecting the density of the high-quality high-purity noble metal according to claim 1, wherein the stabilizing frame (5) comprises a frame body (501) and a plurality of stabilizing rods (502), the frame body (501) is arranged inside the hanging frame (201), the hanging frame (201) extends out of two ends of the frame body (501), and the top ends of the stabilizing rods (502) are connected with the bottom ends of the parts, extending out of the hanging frame (201), of the frame body (501).

6. The high-quality high-purity noble metal density detection device according to claim 5, wherein a gap is reserved between the bottom of the stabilizer bar (502) and the bottom of the electronic balance (1).