CN114636087A - Tester for testing geochemical real-time data based on reservoir property prediction - Google Patents

Abstract

The invention provides a tester for testing geochemical real-time data based on reservoir property prediction, which relates to the technical field of geological testing tools and comprises an installation part; slidable mounting has sliding part on the installation part inner wall, the articulated support component of installing the part bottom, the top of installation part is provided with handheld pole, when needs are examined, the direct handheld wave pole moves up sliding part, let installation part bottom support component expand, detection part can stretch out from the support component position under sliding part's effect this moment, the realization instrument detects the position that needs to detect, and the extension subassembly adopts extending structure, the effect of the whole measuring distance that the extension subassembly increases the instrument has been realized, current detection instrument and equipment have been solved, need gather the after-detection, too many detection processes have been increased, be difficult to simultaneously to detect with comparatively complicated topography to the open air, cause the problem that the potential safety hazard appears in the collection worker easily.

Description

Tester for testing geochemical real-time data based on reservoir property prediction

Technical Field

The invention relates to the technical field of geological testing tools, in particular to a geochemical real-time data tester based on reservoir property prediction.

Background

With the continuous progress of society, industries such as some industries and the like are increasing, such heavy industries need to have sufficient mineral products for supply, some undeveloped areas exist on the earth, so that the undiscovered mineral products need to be detected, and the detection usually needs to detect the nature of a land reservoir through a geochemical mode, so that some deeply-stored mineral products can be detected.

However, with present traditional geological formation detection tool, need use solitary instrument to gather the sample, then carry out detection once more, can increase the detection process, influence holistic detection and efficiency of software testing, be in simultaneously in the region of not developing, to with some deeper or remote topography, it is comparatively inconvenient with the testing process to take a sample, cause the problem that the potential safety hazard appears in the collection worker easily.

Disclosure of Invention

In view of the above, the present invention provides a geochemical real-time data tester based on reservoir property prediction, which has a fast detection mechanism, wherein a detection component can be sleeved in an installation component, the detection component can expand a support component and extend out of the support component after a sliding component is manually triggered, so as to realize fast detection and protect a precise detection component, and an extension component with a telescopic function can detect a deeper position after an extension component on the outer wall of the installation component swings and is fixed.

The invention provides a geochemical real-time data tester based on reservoir property prediction, which specifically comprises: a mounting member; slidable mounting has sliding part on the installation component inner wall, and the articulated support component that installs in installation component bottom, installation component's top is provided with handheld pole, installs the chucking part on the handheld pole, and the inboard position of sliding part cup joints and installs the detection part, and the articulated extension subassembly that installs on installation component's the outer wall is provided with spacing subassembly on the extension subassembly outer wall, and the articulated auxiliary component that installs in extension subassembly terminal position, and the articulated reinforcing component that installs of symmetry end of extension subassembly on the installation component outer wall.

Optionally, the mounting component includes: the erection column, the erection column is vertical section of thick bamboo structure, is provided with two chucking heads that the structure is different on the outer wall of erection column, and the handheld pole that the erection column top set up is symmetrical handle structure, and handheld pole top surface intermediate position articulates there is the display structure.

Optionally, the sliding member includes: the carriage, the carriage is interior structure, and the bottom of carriage is provided with the urceolus, and the urceolus cup joints the outer wall at the erection column, and the top of carriage is fixed with the fluctuation pole of horizontal structure, and the carriage rotates on being close to the erection column inner wall of urceolus position and has the drive wheel.

Optionally, the support member includes: the bottom supporting blocks are hinged to the outer wall of the bottom of the mounting part and are arranged into six groups in a circumferential array structure, anti-slip strips are arranged on the bottom surfaces of the bottom supporting blocks, and reinforcing ribs are mounted on the outer wall of the bottom supporting blocks.

Optionally, the clamping member comprises: the clamping hooks are arranged in four groups, each group of clamping hooks is of a hook-shaped structure, and the clamping hooks are hinged to the bottom of the handheld rod and close to the inner end of the handheld rod.

Optionally, the detecting component includes: the detection rod, be provided with the outer slide of symmetry on the outer wall of detection rod upper end, outer slide cup joints and installs on the inner wall of erection column, outer slide and drive wheel intermeshing, the top of detection rod is provided with outer joint block, is connected through the wire between outer joint block and the detection rod, and the wire sets up to helical structure.

Optionally, the extension assembly comprises: the extension rod is hinged to the outer wall of the mounting component, an extension rod is slidably mounted on the extension rod, and a spiral lead is arranged inside the extension rod.

Optionally, the limiting assembly comprises: the limiting piece is of a U-shaped frame structure, the limiting piece is made of elastic materials, the limiting piece is fixed at the root and the tail end of the expansion rod, and the fixing block is additionally arranged on the limiting piece at the tail end.

Optionally, the reinforcing component includes: the reinforcing rod is hinged to the outer walls of the installation parts which are symmetrical to the stretching assembly, the tail end of the reinforcing rod is provided with a connecting plate in a swinging mode, and the connecting plate is of a U-shaped clamping plate frame structure.

Optionally, the auxiliary component includes: the auxiliary pieces are provided with four groups, and the four groups of auxiliary pieces are hinged to the tail end of the extension rod.

Advantageous effects

1. Compared with the traditional detection equipment, the rapid detection tool of each embodiment of the invention increases the convenient handheld effect of the whole device, the detection part in the installation part can be protected by the supporting part, the whole installation part can be used as a walking stick, a user can move forwards on complex terrains in an auxiliary way, when detection is needed, the fluctuation rod is directly held by hand to move the sliding part upwards, the supporting part at the bottom of the installation part is unfolded, at the moment, the detection part extends out of the supporting part under the action of the sliding part, the detection of the position needing to be detected by the tool is realized, the extension assembly adopts a telescopic structure, and the effect of the extension assembly on increasing the whole detection distance of the tool is realized.

2. The setting is at the urceolus of carriage bottom, let carriage bottom urceolus have the effect of realizing supplementary reinforcement to the support component, the fluctuation pole of setting at carriage top position transverse structure, it stimulates the carriage through the fluctuation pole to have convenient handheld, let the whole effect that realizes elevating movement of sliding part, at first the drive wheel sets up to the gear of transmission structure, thereby lean on the carriage to bottom position installation drive wheel, make the carriage when carrying out the lifting and dropping, can pass through drive wheel and the contact of detecting element, it passes through transmission wheel pair detecting element to reach the carriage, carry out corresponding transmission effect.

3. Establish the end supporting shoe into six groups of articulated installation, let the end supporting shoe have when packing up and folding, play the stable supporting role to the installing component, set up the antislip strip in end supporting shoe bottom, let the installing component be more stable when the outdoor supplementary walking of end supporting shoe in the use, and the reinforcing muscle of end supporting shoe outer wall then has the effect that increases supporting shoe intensity at the bottom of every group.

4. Install the chucking hook in the bottom of handheld pole and lean on the intermediate position for the chucking hook has when undulant pole rises, can be stable carry out the chucking with undulant pole through four group's chucking hooks, let undulant pole pass through the effect that the chucking hook realized the auto-lock, makes things convenient for the detection of follow-up instrument.

5. Set up outer slide into with drive wheel intermeshing, and the drive wheel can realize rotating under the elevating system of carriage, thereby let play the slip in the opposite direction with the outer slide of drive wheel contact, reach and let outer slide drive test bar carry out the effect of stretching out from the installation component position, thereby realize that the test bar stretches out the effect of carrying out the detection, because the test bar is when using, can follow outer slide lift back, stretch out from the installation component, thereby will connect the wire setting of outer joint block and test bar to heliciform structure, reach the test bar that the wire can adapt to the optional position.

6. Usually examine time measuring in regions such as open air geology, because some are for darker or too remote, the expansion pole installation extension rod that can extend, further increase the measuring distance of instrument, at first the auxiliary component is detecting when using, need pass through wire transmission signal, the heliciform wire is adapted to more and follows the gliding auxiliary component of extension rod, set up the connecting plate into the cardboard frame construction of "U" form, make the card that the connecting plate can be stable on the expansion pole outer wall, make the anchor strut play and assist the reinforcement effect to extending the subassembly, let extend the subassembly and avoid taking place crooked scheduling problem when using.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

FIG. 1 shows a schematic diagram of the overall structure according to an embodiment of the invention;

FIG. 2 illustrates a schematic view of a stretching assembly according to an embodiment of the invention;

FIG. 3 shows a schematic view of the bottom of a support member according to an embodiment of the invention;

FIG. 4 illustrates a schematic view of a reinforcement assembly according to an embodiment of the present invention;

FIG. 5 shows a schematic view of the deployment of the bottom support block according to an embodiment of the present invention;

FIG. 6 shows a schematic view of a gripping member according to an embodiment of the invention;

FIG. 7 shows a schematic view of a detection component according to an embodiment of the invention;

FIG. 8 shows a schematic view of a mounting post and carriage according to an embodiment of the invention;

FIG. 9 shows a schematic diagram of a transmission wheel according to an embodiment of the invention;

FIG. 10 shows a schematic diagram at a partial enlargement in FIG. 3 according to an embodiment of the invention;

fig. 11 shows a schematic diagram at B in fig. 4, partially enlarged, according to an embodiment of the invention.

List of reference numerals

1. A mounting member; 101. mounting a column; 102. a clamping head; 103. a hand-held wand; 2. a sliding member; 201. a carriage; 202. a wave bar; 203. a driving wheel; 3. a support member; 301. a bottom support block; 302. reinforcing ribs; 4. a chucking member; 401. a clamping hook; 5. a detection section; 501. a detection lever; 502. an outer slide plate; 503. an external connection block; 6. an extension assembly; 601. expanding the rod; 602. an extension rod; 7. a limiting component; 701. a limiting sheet; 702. a fixed block; 8. a reinforcement assembly; 801. a reinforcing rod; 802. a connecting plate; 9. an auxiliary member; 901. an auxiliary sheet.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference numerals in the drawings denote like elements.

The first embodiment is as follows: please refer to fig. 1 to fig. 11:

the invention provides a geochemical real-time data tester based on reservoir property prediction, which comprises: a mounting member 1; the inner wall of the mounting part 1 is provided with a sliding part 2 in a sliding way, and the bottom of the mounting part 1 is provided with a supporting part 3 in a hinged way.

Further, according to the embodiment of the present invention, the mounting member 1 includes: the mounting column 101 is of a vertical cylinder structure, the mounting column 101 which is of a cylinder structure is provided with a sliding component 2, a detection component 5 and other components which can be mounted in the mounting column 101, two clamping heads 102 with different structures are arranged on the outer wall of the mounting column 101, the clamping head 102 is arranged on the outer wall of the mounting column 101, the clamping head 102 can directly assist and fix the extension component 6 and the reinforcement component 8 on the mounting column 101, the clamping heads 102 with two structures are arranged, the fixing effect of the clamping head 102 on the extension component 6 and the reinforcement component 8 is increased, a handheld rod 103 arranged at the top of the mounting column 101 is of a symmetrical handle structure, the middle position of the top surface of the handheld rod 103 is hinged with a display structure, and the detection mechanism at the positions of the detection component 5 and the auxiliary component 9 is mature chemical detection, so that detected data can be directly displayed through the display structure of the handheld rod 103, the detection data has a more visual effect.

Further, according to the embodiment of the present invention, the slide member 2 includes: the sliding frame 201 is of an inner frame structure, an outer cylinder is arranged at the bottom of the sliding frame 201 and is sleeved on the outer wall of the mounting column 101, the outer cylinder is arranged at the bottom of the sliding frame 201, the outer cylinder at the bottom of the sliding frame 201 has the effect of assisting and reinforcing the supporting component 3, a fluctuation rod 202 of a transverse structure is fixed at the top end of the sliding frame 201, the fluctuation rod 202 of the transverse structure is arranged at the top of the sliding frame 201, the sliding frame 201 can be conveniently pulled through the fluctuation rod 202 by hand, the sliding component 2 can integrally realize the effect of lifting motion, a driving wheel 203 is rotated on the inner wall of the mounting column 101, which is close to the outer cylinder, of the sliding frame 201, the driving wheel 203 is firstly arranged as a gear of a transmission structure, the sliding frame 201 is arranged near the bottom position to be provided with the driving wheel 203, so that the sliding frame 201 can be contacted with the detection component 5 through the driving wheel 203 when lifting and sliding are carried out, the sliding frame 201 performs corresponding transmission action on the detection part 5 through the transmission wheel 203.

Further, according to the embodiment of the present invention, the support member 3 includes: bottom supporting shoe 301, bottom supporting shoe 301 articulates and installs on the bottom outer wall of installing component 1, bottom supporting shoe 301 sets up to six groups of circumference array structure, establish bottom supporting shoe 301 into six groups of articulated installation, let bottom supporting shoe 301 have when packing up and folding, play the stable supporting role to installing component 1, be provided with the antislip strip on bottom supporting shoe 301's the bottom surface, install reinforcing rib 302 on bottom supporting shoe 301 outer wall, the antislip strip of setting in bottom supporting shoe 301 bottom, let installing component 1 be more stable when using bottom supporting shoe 301 to walk in the open air assistance, and the reinforcing rib 302 of bottom supporting shoe 301 outer wall, then have the effect of every group of bottom supporting shoe 301 intensity of increase.

The specific use mode and function of the embodiment are as follows: in the invention, firstly, the mounting column 101 is set to be a cylindrical structure, the sliding frame 201 is slidably mounted inside the mounting column 101, the bottom of the sliding frame 201 is provided with a cylindrical structure larger than the outer wall of the mounting column 101, a spring is additionally arranged between the fluctuation rod 202 at the top of the sliding frame 201 and the handheld rod 103, the bottom of the mounting column 101 is hinged and mounted with the bottom supporting block 301, at the moment, the sliding part 2 can enable the outer sleeve at the bottom of the sliding frame 201 to be sleeved on the outer wall of the bottom supporting block 301 under the action of the spring, so that the bottom supporting block 301 forms a stable table-shaped structure, the supporting part 3 has the function of auxiliary supporting for the mounting part 1, and when a person holding a tool is in a complicated detection position, the person can carry out handheld supporting through the mounting part 1 and the supporting part 3, the search of the complicated terrain is facilitated for the person, the safety of the person is effectively improved, and the clamping head 102 on the outer wall of the mounting column 101, the clamping effect of the components such as the extension component 6 is assisted, so that the mounting component 1 is convenient to hold on hand without lacking efficacy.

Example two:

the top of the mounting component 1 is provided with a handheld rod 103, the handheld rod 103 is provided with a clamping component 4, and the inner side position of the sliding component 2 is sleeved with a detection component 5.

Further, according to the embodiment of the present invention, the chucking member 4 includes: chucking hook 401, chucking hook 401 is provided with four groups altogether, every group chucking hook 401 all sets up to hook-shaped structure, chucking hook 401 is articulated to be installed and is leaned on inner position in the bottom of handheld pole 103, install chucking hook 401 and lean on the intermediate position in the bottom of handheld pole 103, make chucking hook 401 have when undulant pole 202 rises, can be stable through four groups chucking hooks 401, carry out the chucking with undulant pole 202, let undulant pole 202 realize the effect of auto-lock through chucking hook 401, make things convenient for the detection of follow-up instrument.

Further, according to the embodiment of the present invention, the detecting unit 5 includes: the detection rod 501, symmetrical outer sliding plates 502 are arranged on the outer wall of the upper end of the detection rod 501, the outer sliding plates 502 are sleeved on the inner wall of the mounting column 101, the outer sliding plates 502 are meshed with the transmission wheel 203, the transmission wheel 203 can rotate under the lifting action of the sliding frame 201, so that the outer sliding plates 502 contacted with the transmission wheel 203 slide in the opposite direction, the effect that the outer sliding plates 502 drive the detection rod 501 to extend out from the position of the mounting part 1 is achieved, the detection rod 501 extends out for detection is achieved, an outer connecting block 503 is arranged at the top of the detection rod 501, the outer connecting block 503 is connected with the detection rod 501 through a lead, the lead is of a spiral structure, when the detection rod 501 is used, the outer sliding plates 502 can extend out from the mounting part 1 after lifting, so that the lead connecting the outer connecting block 503 and the detection rod 501 is of a spiral structure, the test rod 501 with the lead wire capable of adapting to any position is achieved.

The specific use mode and function of the embodiment are as follows: in the invention, when water quality and the like in soil at some region positions are detected, the handheld rod 103 at the top of the mounting column 101 is held, the fluctuation rod 202 is pulled to the position of the handheld rod 103 manually, at this time, the fluctuation rod 202 is contacted with the clamping hook 401 at the lower end of the root of the handheld rod 103, the clamping hook 401 is arranged in a symmetrical structure, the clamping hook 401 can limit and fix the fluctuation rod 202, so that the whole sliding part 2 is in an upward state, at this time, the outer sleeve at the bottom of the sliding frame 201 can be separated from the bottom supporting block 301, so that the bottom supporting block 301 can be unfolded outwards, as the inside of the mounting part 1 is provided with the detection part 5 while the sliding part 2 is mounted, and the driving wheel 203 is additionally arranged between the sliding frame 201 and the outer sliding plate 502, the raised sliding frame 201 can push the outer sliding plate 502 in the opposite direction through the driving wheel 203, because the outer sliding plate 502 is fixed on the outer wall of the detection rod 501, can let the test rod 501 stretch out from end support block 301, let the test rod 501 that stretches out play and detect the position that needs detected, the test rod 501 that sets up to be concertina movement and outside end support block 301, can let the test rod 501 when not using, pack up inside installation component 1, protect by end support block 301, the guard action of end support block 301 to test rod 501 has been played, also let equipment better realize carrying out the effect that detects to the geology equally.

Example three:

the outer wall of the mounting part 1 is hinged with an extension component 6, the outer wall of the extension component 6 is provided with a limiting component 7, the tail end of the extension component 6 is hinged with an auxiliary part 9, and the symmetrical end of the extension component 6 on the outer wall of the mounting part 1 is hinged with a reinforcing component 8.

Further, according to the embodiment of the present invention, the stretching assembly 6 includes: expansion pole 601, expansion pole 601 hinge mount is on the outer wall of installing component 1, slidable mounting has extension pole 602 on expansion pole 601, examine time measuring in areas such as open air geology usually, because some are more deep or too remote, expansion pole 601 installation extension pole 602 that can expand, further increase the detection distance of instrument, extension pole 602 is inside to be provided with the heliciform wire, at first auxiliary component 9 when detecting the use, need pass through wire transmission signal, the heliciform wire is adapted to more following the gliding auxiliary component 9 of extension pole 602.

Furthermore, according to the embodiment of the present invention, the position limiting component 7 comprises: spacing piece 701, spacing piece 701 is the structure of "U" form frame, spacing piece 701 adopts elastic material, spacing piece 701 is fixed at the root and the end position of extending pole 601, install spacing piece 701 at the root and the end of extending pole 601, let elastic structure's spacing piece 701 play the spacing fixed effect to extension rod 602, let extension rod 602 extend and all can stably be fixed after packing up, it is equipped with fixed block 702 additional to be in end position spacing piece 701, will be in end position's spacing piece 701 installation fixed block 702, realize that spacing piece 701 is when carrying out spacing fixed to extension rod 602, it plays through fixed block 702 to have, prevent the whole problem of roll-off in extending pole 601 of following of extension rod 602.

Further, according to the embodiment of the present invention, the reinforcing member 8 includes: reinforcing rod 801, reinforcing rod 801 is installed on the installation component 1 outer wall of extension subassembly 6 symmetry for articulated, connecting plate 802 is installed in the terminal swing of reinforcing rod 801, connecting plate 802 is the cardboard frame structure of "U" form, set up connecting plate 802 into the cardboard frame structure of "U" form, make the card that connecting plate 802 can be stable on extension pole 601 outer wall, make reinforcing rod 801 play and assisted the reinforcement effect to extension subassembly 6, let extension subassembly 6 avoid taking place crooked scheduling problem when using.

Further, according to the embodiment of the present invention, the auxiliary member 9 includes: the auxiliary pieces 901 and the auxiliary pieces 901 are provided with four groups, the four groups of auxiliary pieces 901 are all hinged to the tail end of the extension rod 602, the four groups of auxiliary pieces 901 are hinged to be installed, the auxiliary pieces 901 can swing and expand when in use, direct detection or sampling of a far position and a deep position is achieved through the auxiliary pieces 901, the detection effect and efficiency are increased, and meanwhile safety of outdoor detection personnel is avoided.

The specific use mode and function of the embodiment are as follows: in the invention, an expansion rod 601 and a reinforcing rod 801 are hinged on the outer wall of a mounting part 1, the reinforcing rod 801 and the expansion rod 601 are clamped and fixed through a clamping head 102 when not in use, at the moment, if deeper detection positions and the like occur, professional equipment is usually required to be erected for sampling detection, the detection is complicated and time-consuming, and the like, at the moment, after the expansion rod 601 is directly swung for one hundred eighty degrees, the expansion rod 601 is erected to increase the detection distance of a tool, meanwhile, the expansion rod 601 on the mounting part 1 and the symmetrical reinforcing rod 801 are erected, a connecting plate 802 at the tail end of the reinforcing rod 801 is clamped on the expansion rod 601, the reinforcing rod 801 is used for reinforcing the expansion rod 601 through the connecting plate 802 to perform stable fixation, when an extension component 6 is used for increasing the length, the expansion rod 601 has a more stable use effect, an extension rod 602 is slidably mounted in the expansion rod 601, two groups of limiting components 7 are mounted on the outer wall of the expansion rod 601, spacing piece 701's setting has the effect of fixing the extension rod 602 that extends out to expanding pole 601 for extension subassembly 6 after the extension has corresponding stable effect, makes more stable when detecting through extension subassembly 6, and the end of extension rod 602 is provided with four groups of supplementary pieces 901 this moment, and supplementary piece 901 is for articulated the end of installing at extension rod 602, lets supplementary piece 901 can install to realize supplementary detection and certain collection effect.

Finally, it should be noted that, when describing the positions of the components and the matching relationship between the components, the invention will be generally exemplified by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other components/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims (10)

1. A tester for real-time data from geochemistry based predictions of reservoir properties, characterized by comprising a mounting member (1); slidable mounting has sliding part (2) on installing component (1) inner wall, articulated installing support component (3) in installing component (1) bottom, the top of installing component (1) is provided with handheld pole (103), install chucking part (4) on handheld pole (103), sliding part (2) inboard position cup joints and installs detecting part (5), articulated installing on the outer wall of installing component (1) extends subassembly (6), be provided with spacing subassembly (7) on extending subassembly (6) outer wall, it articulates and installs auxiliary component (9) to extend subassembly (6) end position, the articulated reinforcing component (8) of installing component (1) outer wall symmetry end of extending subassembly (6) is installed.

2. The instrument for testing real-time data from geochemistry based predictions of reservoir properties according to claim 1, wherein: the mounting member (1) includes: erection column (101), erection column (101) are vertical section of thick bamboo structure, are provided with two chucking heads (102) of different structures on the outer wall of erection column (101), and handheld pole (103) that erection column (101) top set up are symmetrical handle structure, and handheld pole (103) top surface intermediate position articulates there is the display structure.

3. The instrument for testing real-time data from geochemistry based predictions of reservoir properties according to claim 1, wherein: the sliding member (2) includes: carriage (201), carriage (201) are interior structure, and the bottom of carriage (201) is provided with the urceolus, and the urceolus cup joints the outer wall at erection column (101), and the top of carriage (201) is fixed with fluctuation pole (202) of horizontal structure, and carriage (201) are close to and rotate on erection column (101) inner wall of urceolus position and have drive wheel (203).

4. The real-time data from geochemistry tester based on prediction of reservoir properties of claim 1, wherein: the support member (3) includes: the bottom supporting block (301) is hinged to the outer wall of the bottom of the mounting part (1), the bottom supporting block (301) is arranged into six groups of a circumferential array structure, anti-slip strips are arranged on the bottom surface of the bottom supporting block (301), and reinforcing ribs (302) are arranged on the outer wall of the bottom supporting block (301).

5. The instrument for testing real-time data from geochemistry based predictions of reservoir properties according to claim 1, wherein: the clamping part (4) comprises: the clamping hooks (401) are arranged in four groups, each group of clamping hooks (401) are all designed into a hook-shaped structure, and the clamping hooks (401) are hinged to the bottom of the handheld rod (103) and close to the inner end.

6. The instrument for testing real-time data from geochemistry based predictions of reservoir properties according to claim 1, wherein: the detection unit (5) includes: the detection device comprises a detection rod (501), symmetrical outer sliding plates (502) are arranged on the outer wall of the upper end of the detection rod (501), the outer sliding plates (502) are sleeved on the inner wall of a mounting column (101), the outer sliding plates (502) are meshed with a driving wheel (203), an external connection block (503) is arranged at the top of the detection rod (501), the external connection block (503) is connected with the detection rod (501) through a lead, and the lead is arranged to be of a spiral structure.

7. The real-time data from geochemistry tester based on prediction of reservoir properties of claim 1, wherein: the stretching assembly (6) comprises: expansion pole (601), expansion pole (601) articulated install on the outer wall of installing component (1), and slidable mounting has extension rod (602) on expansion pole (601), and extension rod (602) inside is provided with the heliciform wire.

8. The instrument for testing real-time data from geochemistry based predictions of reservoir properties according to claim 1, wherein: spacing subassembly (7) including: spacing piece (701), spacing piece (701) are the structure of "U" form frame, and spacing piece (701) adopt elastic material, and root and the extreme position at extension pole (601) are fixed in spacing piece (701) of extreme position, are in the extreme position and install fixed block (702) additional in extreme position spacing piece (701).

9. The instrument for testing real-time data from geochemistry based predictions of reservoir properties according to claim 1, wherein: the reinforcing component (8) comprises: the reinforcing rod (801) is hinged to the outer wall of the symmetrical mounting part (1) of the extension assembly (6), a connecting plate (802) is arranged at the tail end of the reinforcing rod (801) in a swinging mode, and the connecting plate (802) is of a U-shaped clamping plate frame structure.

10. The real-time data from geochemistry tester based on prediction of reservoir properties of claim 1, wherein: the auxiliary member (9) includes: the auxiliary pieces (901), the auxiliary pieces (901) are provided with four groups, and the four groups of auxiliary pieces (901) are hinged and installed at the tail end position of the extension rod (602).

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