CN215415140U - Supporting device for core XRF test and core XRF test equipment - Google Patents

Abstract

The utility model relates to a supporting device for core XRF test and core XRF test equipment, wherein the supporting device for core XRF test comprises: the device comprises a core operating platform, an instrument placing platform, a first supporting rod and at least two second supporting rods; a groove is formed in the core operation table and penetrates through the core operation table; the groove is used for placing and fixing a core to be tested; an instrument cavity for mounting an XRF analyzer is arranged on the instrument placing table; the first supporting rod is connected with the core operating platform; each second supporting rod is connected with the core operation table and the instrument placing table respectively, so that each second supporting rod is perpendicular to the core operation table and the instrument placing table, and the instrument placing table is parallel to the core operation table. This scheme of adoption will await measuring the rock core and place in the recess, can prevent that the rock core that awaits measuring from rolling to place the platform with XRF analysis appearance direct mount on the instrument, XRF analysis appearance can not shake in the testing process, thereby improves the degree of accuracy of test data.

Description

Supporting device for core XRF test and core XRF test equipment

Technical Field

The utility model relates to the technical field of core XRF testing, in particular to a supporting device for core XRF testing and core XRF testing equipment.

Background

The hand-held XRF analyzer is a spectrum analyzer based on XRF (X Ray Fluorescence) spectrum analysis technology, mainly comprises an X-Ray tube, a detector, a CPU and a memory, and has important application in the fields of alloy, ore, environment, consumer goods and the like.

The handheld XRF analyzer is mainly used for testing the elemental composition of soil and rock. Currently, with the development of core digitization technology, XRF analyzers are applied to core test and analysis. However, the outer surface of the core is arc-shaped, so that the core is easy to roll in the test process, and the core and the XRF analyzer are dislocated, so that the accuracy of test data is influenced. Moreover, the single-point test time of the XRF analyzer is long (the time of testing one point position by the XRF analyzer can reach 120-180S), and the operator holds the instrument for a long time, so that arm shaking is easily caused by fatigue, and the accuracy of test data is influenced.

Therefore, how to improve the accuracy of the XRF test data of the core is a technical problem which needs to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a supporting device for a core XRF test and a core XRF test apparatus, and aims to solve the problem that in the prior art, a core is easy to roll in a test process, so that the core is in dislocation with an XRF analyzer or a worker holds the instrument for a long time, and arm shaking is easily caused by fatigue, so that accuracy of test data is affected.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a support device for core XRF testing, includes: the device comprises a core operating platform, an instrument placing platform, a first supporting rod and at least two second supporting rods;

a groove is formed in the core operation table and penetrates through the core operation table;

the groove is used for placing and fixing a core to be tested;

an instrument cavity for mounting an XRF analyzer is formed in the instrument placing table;

the first supporting rod is connected with the core operating platform to support the supporting device for the XRF test of the core;

each second supporting rod is respectively connected with the core operation table and the instrument placing table, so that each second supporting rod is respectively perpendicular to the core operation table and the instrument placing table, and the instrument placing table is parallel to the core operation table.

Further, above-mentioned a strutting arrangement for rock core XRF test still includes: a bolt;

each second support rod is provided with a plurality of hole sites, and the hole sites arranged on the second support rods are the same;

the bolt is connected with the instrument placing table through the hole position on the second supporting rod, so that the instrument placing table is connected with the second supporting rod.

Furthermore, in the supporting device for the core XRF test, each second supporting rod is provided with 3 hole sites;

the distance between each hole site and the core operation table is 125mm, 160mm and 170mm respectively.

Further, in the supporting device for core XRF testing, each second supporting rod is a telescopic supporting rod to adjust the height of the instrument placing table.

Further, in the supporting device for the core XRF test, the core operating platform is connected with the second supporting rod in a welding mode or in a bolt mode.

Further, in the supporting device for the XRF test of the rock core, the groove is an arc-shaped groove.

Further, in the supporting device for core XRF testing, the number of the first supporting rods is at least three.

The utility model also provides core XRF test equipment, which comprises: the XRF analyzer and the supporting device for the core XRF test are arranged;

the XRF analyzer is arranged on the supporting device for the core XRF test, and is used for conducting the core XRF test on the core to be tested placed on the supporting device for the core XRF test.

The utility model discloses a supporting device for core XRF test and core XRF test equipment, wherein the supporting device for core XRF test comprises: the device comprises a core operating platform, an instrument placing platform, a first supporting rod and at least two second supporting rods; a groove is formed in the core operation table and penetrates through the core operation table; the groove is used for placing and fixing a core to be tested; an instrument cavity for mounting an XRF analyzer is arranged on the instrument placing table; the first supporting rod is connected with the core operating platform to support a supporting device for core XRF testing; each second supporting rod is connected with the core operation table and the instrument placing table respectively, so that each second supporting rod is perpendicular to the core operation table and the instrument placing table, and the instrument placing table is parallel to the core operation table. By adopting the technical scheme of the utility model, the core to be tested is placed in the groove, the core to be tested can be prevented from rolling, and the XRF analyzer is directly arranged on the instrument placing table and cannot shake in the testing process, so that the accuracy of the testing data is improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the utility model, as claimed.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present invention, the drawings used in the description of the embodiments or prior art will be briefly described below, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of a supporting device for core XRF testing according to the utility model.

Detailed Description

To make the objects, aspects and advantages of the present invention clearer, exemplary embodiments will be described in detail herein, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the utility model, as detailed in the appended claims.

Fig. 1 is a schematic structural diagram of an embodiment of a supporting device for core XRF testing according to the present invention, and as shown in fig. 1, the supporting device for core XRF testing according to the present embodiment includes: a core handling table 11, an instrument placement table 12, a first support bar 13 and at least two second support bars 14. Fig. 1 shows an example in which two second support bars 14 are provided.

A groove 111 is provided on the core handling platform 11, and the groove 111 penetrates through the core handling platform 11. The user can place the examination rock core that awaits measuring on recess 11 to can play the fixed examination rock core that awaits measuring, place the rolling effect of examination rock core that awaits measuring, thereby can improve the accuracy to rock core XRF test. Be provided with instrument hole 121 on the platform 12 is placed to the instrument, this instrument hole 121 is used for installing the XRF analysis appearance to fix the XRF analysis appearance on the platform 12 is placed to the instrument, need not the handheld test of user, avoided the long-time handheld test data inaccurate problem that leads to that to tremble of causing of user, improved the accuracy that rock core XRF tested.

First bracing piece 13 links to each other with core operation panel 11, can play the supporting role, supports the strutting arrangement who is used for rock core XRF test of this embodiment. Every second bracing piece 14 is connected with core operation platform 11 and instrument placing table 12 respectively to make every second bracing piece 14 all perpendicular with core operation platform 11 and instrument placing table 12, and instrument placing table 12 is parallel with core operation platform 11, thereby conveniently set up the XRF analysis appearance on instrument placing table 12 and carry out the XRF test to the core that awaits measuring of placing on recess 111.

Further, the shape of the core table 11 in the present embodiment is not limited, and may be, for example, a square shape or a circular shape. When the core operation table 11 is square, the embodiment at least includes 4 first support rods 13, and when the core operation table 11 is circular, the embodiment at least includes 3 first support rods 13, as long as the number of the first support rods 13 can satisfy the requirement of stably supporting the supporting device for the core XRF test of the embodiment.

Further, the supporting device for core XRF testing of this embodiment further includes a bolt 15. Each second support rod 14 is provided with a plurality of hole sites 141, and the hole sites 141 on each second support rod 14 are the same, so that the instrument placing table 12 connected with the instrument placing table can be ensured to be parallel to the core operating table 11. The bolt 15 is matched with the hole 141, so that the bolt 15 can be connected with the instrument placing table 12 through the hole 141 on the second support rod 14, thereby realizing the connection between the instrument placing table 12 and the second support rod 14 and completing the fixation of the instrument placing table 12. The distance between different hole sites 141 on each second support rod 14 and the core operation table 11 is different, so that the instrument placement table 12 is connected with different hole sites on the second support rods 14 through bolts 15, and the distance between the instrument placement table 12 and the core operation table 11 can be controlled.

For example, as shown in fig. 1, three hole sites 141 are preferably provided for each second support rod 14, and the distances between the respective hole sites 141 and the core handling table 11 are 125mm, 160mm, and 170mm, respectively. When the instrument placing table 12 is connected with a hole 141 with a distance of 125mm between the second support rod 14 and the core operation table 11 through a bolt 15, the XRF analyzer arranged on the instrument placing table 12 can test a 650mm core to be tested; when the instrument placing table 12 is connected with a hole 141 with a distance of 160mm between the second support rod 14 and the core operation table 11 through a bolt 15, the XRF analyzer arranged on the instrument placing table 12 can test a core to be tested with a thickness of 100 mm; when the instrument placement table 12 is connected to the hole 141, which is located at a distance of 170mm from the core operation table 11, on the second support rod 14 by the bolt 15, the instrument placement table 12 is set in a position where the XRF analyzer set on the instrument placement table 12 is not tested.

Further, the strutting arrangement for rock core XRF test of this embodiment except adopting the mode that sets up the hole site on second bracing piece 14 to control the instrument and place the distance between platform 12 and the core operation platform 11, can also adopt scalable bracing piece as second bracing piece 14, can directly be through the flexible degree of adjusting second bracing piece 14 like this, alright with the height of adjusting instrument and placing platform 12 to control the instrument and place the distance between platform 12 and the core operation platform 11.

Further, in this embodiment, the core operating table 11 and the second support rod 14 may be connected by welding or bolts.

Further, in the present embodiment, the groove 111 provided on the core operation table 11 is preferably an arc-shaped groove, and the width of the groove 111 is preferably 100 mm.

Further, the instrument cavity 121 provided on the instrument placement table 12 in the present embodiment is preferably a rectangular cavity for placing the XRF analyzer. The length of the rectangular hollow is preferably 137mm, and the width thereof is preferably 58 mm.

The strutting arrangement for rock core XRF test of this embodiment includes: the device comprises a core operation table 11, an instrument placing table 12, a first supporting rod 13 and at least two second supporting rods 14; a groove 111 is formed in the core operation table 11, and the groove 111 penetrates through the core operation table 11; the groove 111 is used for placing and fixing a core to be tested; an instrument cavity 121 for mounting an XRF analyzer is arranged on the instrument placing table 12; the first supporting rod 13 is connected with the core operating platform 11 to support a supporting device for core XRF testing; each second support rod 14 is connected to the core operation table 11 and the instrument placement table 12, respectively, so that each second support rod 14 is perpendicular to the core operation table 11 and the instrument placement table 12, and the instrument placement table 12 is parallel to the core operation table 11. By adopting the technical scheme of the utility model, the core to be tested is placed in the groove 111, the core to be tested can be prevented from rolling, and the XRF analyzer is directly arranged on the instrument placing table 12 and cannot shake in the testing process, so that the accuracy of the testing data is improved.

The utility model also provides core XRF test equipment, which comprises: an XRF analyzer and a supporting device for core XRF test as described in the above embodiments. The XRF analyzer is arranged on an instrument placing table of the supporting device for the core XRF test, and the core XRF test is carried out on a core to be tested placed on a groove of the supporting device for the core XRF test.

The rock core XRF test equipment of this embodiment will await measuring the rock core and place in the recess, can prevent that the rock core that awaits measuring from rolling to place the platform with XRF analysis appearance direct mount on the instrument, XRF analysis appearance can not shake in the testing process, thereby improves the degree of accuracy of test data.

It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments.

It should be noted that the terms "first," "second," and the like in the description of the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Further, in the description of the present invention, the meaning of "a plurality" means at least two unless otherwise specified.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (8)

1. A strutting arrangement for rock core XRF test, characterized by that includes: the device comprises a core operating platform, an instrument placing platform, a first supporting rod and at least two second supporting rods;

a groove is formed in the core operation table and penetrates through the core operation table;

the groove is used for placing and fixing a core to be tested;

an instrument cavity for mounting an XRF analyzer is formed in the instrument placing table;

the first supporting rod is connected with the core operating platform to support the supporting device for the XRF test of the core;

each second supporting rod is respectively connected with the core operation table and the instrument placing table, so that each second supporting rod is respectively perpendicular to the core operation table and the instrument placing table, and the instrument placing table is parallel to the core operation table.

2. The support device for core XRF testing as claimed in claim 1, further comprising: a bolt;

each second support rod is provided with a plurality of hole sites, and the hole sites arranged on the second support rods are the same;

the bolt is connected with the instrument placing table through the hole position on the second supporting rod, so that the instrument placing table is connected with the second supporting rod.

3. The support device for core XRF testing as claimed in claim 2, wherein 3 hole sites are provided on each second support bar;

the distance between each hole site and the core operation table is 125mm, 160mm and 170mm respectively.

4. The support device for core XRF testing as claimed in claim 1 wherein each of the second support rods is a telescoping support rod to adjust the height of the instrument rest.

5. The support device for core XRF testing as claimed in claim 1 wherein the core handling station is welded or bolted to the second support rod.

6. The support device for core XRF testing as claimed in claim 1, wherein the recess is an arcuate recess.

7. The support device for core XRF testing as claimed in claim 1, wherein the number of the first support rods is at least three.

8. A core XRF testing apparatus, comprising: an XRF analyzer and the support device for core XRF testing of any one of claims 1-7;

the XRF analyzer is arranged on the supporting device for the core XRF test, and is used for conducting the core XRF test on the core to be tested placed on the supporting device for the core XRF test.

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