CN114636087B - Prediction of reservoir properties based on real-time data from geochemical testers - 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

Prediction of reservoir properties based on real-time data from geochemical testers

technical field

The present invention relates to the technical field of geological testing tools, in particular to a testing instrument based on the prediction of reservoir properties from real-time data from geochemistry.

Background technique

With the continuous progress of society, some industries and other industries are also increasing. Such heavy industries need to have sufficient minerals for supply. There are some undeveloped areas on the earth, so it is necessary to detect undiscovered minerals. Usually, the detection needs to pass Geochemical methods are used to detect the properties of land reservoirs, so that some deep minerals can be found.

However, as far as the current traditional geological formation detection tools are concerned, it is necessary to use a separate tool to collect samples, and then perform a second test, which will increase the detection process and affect the overall detection and test efficiency. In deep or remote terrain, it is inconvenient to carry out sampling and detection process, and it is easy to cause potential safety hazards for the collection workers.

SUMMARY OF THE INVENTION

In view of this, the present invention provides a real-time data tester based on the prediction of reservoir properties from geochemistry, which has a rapid detection mechanism, and can install the detection component by socketing the installation component. When the parts are unfolded, the detection part is extended from the position of the support part, which realizes the rapid detection and the protection of the precise detection part. deep position detection.

The invention provides a real-time geochemical data tester based on prediction of reservoir properties, which specifically includes: an installation part; a sliding part is slidably installed on the inner wall of the installation part, a support part is hingedly installed at the bottom of the installation part, and the top of the installation part is set There is a hand-held rod, a clamping part is installed on the hand-held rod, a detection part is installed in a sleeve at the inner position of the sliding part, an extension assembly is hingedly installed on the outer wall of the installation part, a limit assembly is arranged on the outer wall of the extension assembly, and the end position of the extension assembly is hingedly installed There are auxiliary parts, and the symmetrical ends of the extension parts on the outer wall of the mounting parts are hingedly mounted with reinforcement parts.

Optionally, the installation component includes: an installation column, the installation column is in a vertical cylinder structure, the outer wall of the installation column is provided with two types of clamping heads with different structures, and the hand-held rod arranged on the top of the installation column is a symmetrical handle. The middle position of the top surface of the hand-held rod is hinged with a display structure.

Optionally, the sliding part includes: a sliding frame, the sliding frame has an inner frame structure, the bottom of the sliding frame is provided with an outer cylinder, the outer cylinder is sleeved on the outer wall of the installation column, and the top of the sliding frame is fixed with a horizontal structure There is a transmission wheel rotating on the inner wall of the installation column where the sliding frame is close to the outer cylinder.

Optionally, the support member includes: a bottom support block, the bottom support block is hingedly mounted on the bottom outer wall of the mounting member, the bottom support block is arranged in six groups of a circular array structure, and the bottom surface of the bottom support block is provided with Anti-skid strips, and reinforcement ribs are installed on the outer wall of the bottom support block.

Optionally, the clamping part includes: clamping hooks, the clamping hooks are provided with four groups in total, each group of clamping hooks is set as a hook-like structure, and the clamping hooks are hingedly installed on the bottom of the hand-held rod. Inner position.

Optionally, the detection component includes: a detection rod, a symmetrical outer sliding plate is provided on the outer wall of the upper end of the detection rod, the outer sliding plate is sleeved and installed on the inner wall of the installation column, the outer sliding plate and the transmission wheel are meshed with each other, and the detection rod The top of the device is provided with an external block, the external block and the detection rod are connected by a wire, and the wire is set in a spiral structure.

Optionally, the extension assembly includes an extension rod, the extension rod is hingedly mounted on the outer wall of the mounting member, an extension rod is slidably installed on the extension rod, and a helical wire is arranged inside the extension rod.

Optionally, the limiter assembly includes: a limiter piece, the limiter piece is a "U"-shaped frame structure, the limiter piece is made of elastic material, and the limiter piece is fixed at the root and the end position of the expansion rod, At the end position, the limit piece is equipped with a fixed block.

Optionally, the reinforcement assembly includes: a reinforcement rod, the reinforcement rod is hingedly installed on the outer wall of the symmetrical mounting part of the extension assembly, and a connecting plate is swayed and installed at the end of the reinforcement rod, and the connection plate is a "U"-shaped card board. frame structure.

Optionally, the auxiliary component includes: auxiliary pieces, and the auxiliary pieces are provided with four groups in total, and all the four groups of auxiliary pieces are hingedly installed at the end positions of the extension rods.

beneficial effect

1. Compared with the traditional detection equipment, the quick detection tool of each embodiment of the present invention increases the convenient hand-held function of the whole device, and the detection part in the installation part can be protected by the support part, so that the installation part can be used as a crutch as a whole, Auxiliary allows the user to move forward in complex terrain, and when it is necessary to detect, directly hold the wave rod to move the sliding part upwards, so that the bottom support part of the installation part is unfolded, and the detection part will be supported from the support part under the action of the sliding part. The position of the component is extended, so that the tool can detect the position to be detected, and the extension assembly adopts a telescopic structure, which realizes the function of increasing the overall detection distance of the tool by the extension assembly.

2. The outer cylinder set at the bottom of the sliding frame makes the outer cylinder at the bottom of the sliding frame have the function of assisting the reinforcement of the supporting parts, and the wave rod of the horizontal structure set at the top of the sliding frame is convenient for holding the sliding frame through the wave rod. Pull, let the sliding part as a whole realize the function of lifting motion, firstly, the transmission wheel is set as the gear of the transmission structure, so that the transmission wheel is installed at the bottom of the sliding frame, so that when the sliding frame is lifting and sliding, it can pass the transmission wheel and the detection part. Contact, to achieve the sliding frame through the transmission wheel to the detection component, to carry out the corresponding transmission action.

3. Set the bottom support block as six groups of hinged installation, so that the bottom support block can provide stable support for the installation parts when it is folded and folded. The use of the bottom support block is more stable when assisting walking outdoors, and the reinforcing ribs on the outer wall of the bottom support block have the effect of increasing the strength of each group of bottom support blocks.

4. Install the clamping hook at the bottom of the hand-held rod near the middle position, so that the clamping hook can stably pass through the four sets of clamping hooks when the wave rod is raised, and the wave rod is clamped, so that the wave rod can pass through the clamp. The tight hook realizes the function of self-locking, which is convenient for the detection of subsequent tools.

5. Set the outer sliding plate to mesh with the transmission wheel, and the transmission wheel will rotate under the lifting action of the sliding frame, so that the outer sliding plate in contact with the transmission wheel slides in the opposite direction, so that the outer sliding plate can drive the detection rod. Carry out the effect of protruding from the position of the installation part, so as to realize the effect of the detection rod extending for detection, because the detection rod will follow the outer slide plate to rise and fall, and then protrude from the installation part, so as to connect the connection between the external block and the detection rod. The wire is arranged in a helical structure, so that the wire can adapt to the detection rod in any position.

6. Usually when testing in outdoor geological and other areas, since some are deep or too remote, the extension rods that can be expanded are installed with extension rods, which further increases the detection distance of the tool. First of all, when the auxiliary parts are used for testing , the signal needs to be transmitted through the wire. The spiral wire is more suitable for the auxiliary components that follow the extension rod. The connecting plate is set to a "U"-shaped card frame structure, so that the connecting plate can be stably clamped on the outer wall of the extension rod, so that the The reinforcement rod plays an auxiliary reinforcement effect on the extension assembly, so that the extension assembly can avoid problems such as skewing during use.

Description of drawings

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

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

In the attached image:

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

Figure 2 shows a schematic diagram of a stretching assembly according to an embodiment of the present invention;

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

Figure 4 shows a schematic diagram of a reinforcement assembly according to an embodiment of the present invention;

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

Figure 6 shows a schematic diagram of a clamping member according to an embodiment of the present invention;

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

FIG. 8 shows a schematic diagram of a mounting post and a sliding frame according to an embodiment of the present invention;

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

FIG. 10 shows a partially enlarged schematic diagram of part A in FIG. 3 according to an embodiment of the present invention;

FIG. 11 shows a schematic enlarged view of part B in FIG. 4 according to an embodiment of the present invention.

List of reference signs

1. Installation part; 101, Installation column; 102, Clamping head; 103, Hand lever; 2, Sliding part; 201, Sliding frame; 202, Wave rod; 203, Transmission wheel; 3, Support part; 301, Bottom support block; 302, reinforcing ribs; 4, clamping part; 401, clamping hook; 5, detection part; 501, detection rod; 502, outer slide plate; 503, external block; 6, extension assembly; 601, expansion rod; 602 7, limit component; 701, limit piece; 702, fixed block; 8, reinforcement component; 801, reinforcement rod; 802, connecting plate; 9, auxiliary parts; 901, auxiliary piece.

Detailed ways

In order to make the purposes, solutions and advantages of the technical solutions of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of specific embodiments of the present invention. Unless otherwise specified, terms used herein have their ordinary meanings in the art. The same reference numbers in the figures represent the same parts.

Embodiment 1: Please refer to Figure 1 to Figure 11:

The present invention proposes a real-time geochemical data tester based on prediction of reservoir properties, comprising: an installation part 1; a sliding part 2 is slidably installed on the inner wall of the installation part 1, and a support part 3 is hingedly installed at the bottom of the installation part 1.

In addition, according to the embodiment of the present invention, the installation component 1 includes: an installation column 101 , the installation column 101 has a vertical cylindrical structure, and the installation column 101 arranged in the cylindrical structure has the function of allowing the installation column 101 to be installed and slid. For components such as component 2 and detection component 5, two kinds of clamping heads 102 with different structures are arranged on the outer wall of the mounting column 101. The clamping head 102 is set on the outer wall of the installation column 101, so that the clamping head 102 can directly connect the extension assembly. 6 and the reinforcement component 8 are assisted to be fixed on the installation column 101, and the clamping head 102 provided with two structures increases the fixing effect of the clamping head 102 on the extension component 6 and the reinforcement component 8. The top of the installation column 101 is provided with The hand-held lever 103 has a symmetrical handle structure, and a display structure is hinged at the middle of the top surface of the hand-held lever 103, because the detection mechanisms at the detection part 5 and the auxiliary part 9 are relatively mature chemical detection, so that the detected data can be directly passed through the handheld The display structure display of the rod 103 makes the detection data more intuitive.

In addition, according to the embodiment of the present invention, the sliding part 2 includes: a sliding frame 201, the sliding frame 201 has an inner frame structure, the bottom of the sliding frame 201 is provided with an outer cylinder, and the outer cylinder is sleeved on the outer wall of the installation column 101, The outer cylinder arranged at the bottom of the sliding frame 201 allows the outer cylinder at the bottom of the sliding frame 201 to have the function of assisting the reinforcement of the support member 3. The top of the sliding frame 201 is fixed with a horizontally structured wave rod 202, which is arranged on the top of the sliding frame 201. The wave rod 202 with the horizontal structure has the function of being convenient to hold the sliding frame 201 by pulling the sliding frame 201 through the wave rod 202, so that the sliding part 2 can realize the lifting movement as a whole. The sliding frame 201 is close to the outer cylinder. 203. First, the transmission wheel 203 is set as the gear of the transmission structure, so that the transmission wheel 203 is installed at the bottom position of the sliding frame 201, so that when the sliding frame 201 moves up and down, it can contact the detection part 5 through the transmission wheel 203 to reach the sliding frame. 201 performs a corresponding transmission action on the detection component 5 through the transmission wheel 203 .

In addition, according to the embodiment of the present invention, the support member 3 includes: a bottom support block 301, the bottom support block 301 is hingedly mounted on the bottom outer wall of the mounting member 1, and the bottom support block 301 is arranged as six groups of a circular array structure, The bottom support block 301 is set as six groups of hinged installation, so that the bottom support block 301 has a stable support function for the mounting part 1 when it is folded and folded. Reinforcing ribs 302 are installed on the outer wall of the block 301, and the anti-skid strips arranged at the bottom of the bottom support block 301 make the installation part 1 more stable when using the bottom support block 301 to assist walking outdoors, while the reinforcing ribs 302 on the outer wall of the bottom support block 301 are more stable. , it has the effect of increasing the strength of each group of bottom support blocks 301 .

The specific usage and function of this embodiment: In the present invention, the mounting column 101 is first set as a cylindrical structure, the sliding frame 201 is slidably installed inside the mounting column 101 , and the bottom of the sliding frame 201 is provided with a cylindrical structure larger than the outer wall of the mounting column 101 Structure, a spring is installed between the wave rod 202 on the top of the sliding frame 201 and the hand-held rod 103, and a bottom support block 301 is hingedly installed at the bottom of the mounting column 101. At this time, the sliding part 2 will make the sliding frame under the action of the spring. The outer sleeve at the bottom of 201 is sleeved on the outer wall of the bottom support block 301, so that the bottom support block 301 forms a structure in the shape of a stable table, so that the support part 3 has the function of assisting the mounting part 1, so that the personnel holding the tool is relatively When the detection position is complex, it can be held by the installation part 1 and the support part 3, which is convenient for personnel to explore in complex terrain and effectively increases the safety of personnel. The snap-on effect of components such as the extension component 6 makes the installation component 1 as a whole more convenient to hold without lack of efficacy.

Embodiment 2:

The top end of the mounting part 1 is provided with a handle bar 103 , a clamping part 4 is mounted on the handle bar 103 , and a detection part 5 is mounted on the inner side of the sliding part 2 by socket.

In addition, according to the embodiment of the present invention, the clamping part 4 includes: clamping hooks 401 , four groups of clamping hooks 401 are arranged in total, and each group of clamping hooks 401 is set as a hook-like structure, and the clamping hooks 401 It is hingedly installed at the bottom of the hand-held rod 103 near the inner end, and the clamping hook 401 is installed at the bottom of the hand-held rod 103 near the middle position, so that the clamping hook 401 has the ability to stably pass through the four groups of clamps when the fluctuation rod 202 is raised. The tightening hook 401 is used to clamp the wave rod 202, so that the wave rod 202 can realize the self-locking function through the clamping hook 401, which is convenient for subsequent tool detection.

In addition, according to the embodiment of the present invention, the detection component 5 includes: a detection rod 501, a symmetrical outer sliding plate 502 is provided on the outer wall of the upper end of the detection rod 501, the outer sliding plate 502 is sleeved and installed on the inner wall of the installation column 101, and the outer The sliding plate 502 and the transmission wheel 203 are meshed with each other, and the outer sliding plate 502 is set to mesh with the transmission wheel 203, and the transmission wheel 203 will rotate under the lifting action of the sliding frame 201, so that the outer sliding plate 502 in contact with the transmission wheel 203 can function. Sliding in the opposite direction achieves the effect of allowing the outer slide plate 502 to drive the detection rod 501 to extend from the position of the installation part 1, thereby realizing the function of the detection rod 501 extending for detection. The top of the detection rod 501 is provided with an external block 503, which The block 503 and the detection rod 501 are connected by a wire, and the wire is arranged in a spiral structure, because the detection rod 501 will follow the outer slide 502 to rise and fall, and then extend from the installation part 1, thereby connecting the external block 503 with the detection rod. The wire of the rod 501 is arranged in a helical structure, so that the wire can adapt to any position of the detection rod 501 .

The specific usage and function of this embodiment: In the present invention, when testing the water quality in the soil in some geographical locations, the hand-held rod 103 on the top of the installation column 101 is held, and the fluctuation rod 202 is manually pulled to the position of the hand-held rod 103. At this time, the wave lever 202 will be in contact with the clamping hook 401 at the lower end of the handle bar 103, and the clamping hook 401 is arranged in a symmetrical structure, so that the clamping hook 401 can limit and fix the wave rod 202, so that the sliding part 2 is in a position as a whole. In the upward state, the outer sleeve at the bottom of the sliding frame 201 will be disengaged from the bottom support block 301, so that the bottom support block 301 can be expanded outward. A transmission wheel 203 is installed between the sliding frame 201 and the outer sliding plate 502 , so that the raised sliding frame 201 will push the outer sliding plate 502 in the opposite direction through the transmission wheel 203 , because the outer sliding plate 502 is fixed on the outer wall of the detection rod 501 , the detection rod 501 will be extended from the bottom support block 301, and the extended detection rod 501 will be used to detect the position that needs to be detected. When the detection rod 501 is not in use, it can be retracted into the interior of the installation part 1 and protected by the bottom support block 301, which plays a protective role for the detection rod 501 by the bottom support block 301, and also allows the equipment to better realize the geological detection. detection effect.

Embodiment three:

An extension assembly 6 is hingedly installed on the outer wall of the installation part 1, a limit assembly 7 is arranged on the outer wall of the extension assembly 6, an auxiliary part 9 is hingedly installed at the end position of the extension assembly 6, and the symmetrical end of the extension assembly 6 on the outer wall of the installation part 1 is hingedly installed. Reinforcement assembly 8.

In addition, according to the embodiment of the present invention, the extension assembly 6 includes: an extension rod 601, the extension rod 601 is hingedly mounted on the outer wall of the mounting member 1, and an extension rod 602 is slidably installed on the extension rod 601, usually in outdoor geological When testing in other areas, since some are deep or too remote, the extension rod 601 that can be expanded is installed with the extension rod 602, which further increases the detection distance of the tool. The extension rod 602 is provided with a spiral wire inside. 9. When using for detection, it is necessary to transmit signals through wires, and the helical wires are more suitable for the auxiliary component 9 that slides with the extension rod 602.

In addition, according to the embodiment of the present invention, the limiter assembly 7 includes: a limiter piece 701, the limiter piece 701 is a "U"-shaped frame structure, the limiter piece 701 is made of elastic material, and the limiter piece 701 is fixed on the At the root and end positions of the extension rod 601, the limiting piece 701 is installed on the root and the end of the extension rod 601, so that the elastic structure limiting piece 701 can limit and fix the extension rod 602, so that the extension rod 602 can stretch and After being folded, they can be stably fixed. The limit piece 701 at the end position is equipped with a fixing block 702, and the limit piece 701 at the end position is installed with the fixing block 702, so that the limit piece 701 can limit and fix the extension rod 602. At the same time, there is a problem of preventing the extension rod 602 from sliding out of the extension rod 601 as a whole through the fixing block 702 .

In addition, according to the embodiment of the present invention, the reinforcement assembly 8 includes: a reinforcement rod 801, the reinforcement rod 801 is hingedly mounted on the outer wall of the symmetrical mounting part 1 of the extension assembly 6, and the end of the reinforcement rod 801 is swayed and installed with a connecting plate 802, The connecting plate 802 has a "U"-shaped card plate frame structure, and the connecting plate 802 is set to a "U"-shaped card plate frame structure, so that the connecting plate 802 can be stably clamped on the outer wall of the expansion rod 601, so that the reinforcing rod 801 can lift up. When it comes to the auxiliary reinforcement effect of the extension assembly 6, the extension assembly 6 can avoid problems such as skew when in use.

In addition, according to the embodiment of the present invention, the auxiliary part 9 includes: auxiliary pieces 901, and four sets of auxiliary pieces 901 are arranged in total. The installed four sets of auxiliary sheets 901 can swing and unfold when in use, so that direct detection or sampling of far and deep positions can be carried out through the auxiliary sheets 901, so that the detection effect and efficiency are increased, and outdoor detection is avoided at the same time. personnel safety.

The specific usage and function of this embodiment: In the present invention, the outer wall of the mounting member 1 is hingedly installed with the expansion rod 601 and the reinforcement rod 801, and the reinforcement rod 801 and the expansion rod 601 are clamped by the clamping head 102 when not in use. Fix it tightly. If there is a deep detection position at this time, it is usually necessary to set up professional equipment for sampling and testing, which will cause the detection to be complicated and time-consuming. Increase the detection distance of the tool, and at the same time erect the expansion rod 601 and the symmetrical reinforcement rod 801 on the installation part 1, and engage the connecting plate 802 at the end of the reinforcement rod 801 on the expansion rod 601, so that the reinforcement rod 801 is reinforced by the connecting plate 802 The extension rod 601 is stably fixed, so that the extension rod 601 can be used more stably when the extension assembly 6 is used with an increased length. The extension rod 602 is slidably installed in the extension rod 601, and an extension rod 601 is installed on the outer wall of the extension rod 601. There are two sets of limit assemblies 7, and the setting of the limit pieces 701 has the effect of fixing the extension rod 602 extended by the extension rod 601, so that the extension assembly 6 after the extension has a corresponding stabilization effect, so that the extension rod 602 has a corresponding stabilization effect. 6. It is more stable during detection. At this time, the end of the extension rod 602 is provided with four sets of auxiliary pieces 901. The auxiliary pieces 901 are hingedly installed at the end of the extension rod 602, so that the auxiliary pieces 901 can be installed to achieve auxiliary detection and certain collection functions.

Finally, it should be noted that when describing the position of each component and the matching relationship between them, the present invention usually takes one/a pair of components as an example. However, those skilled in the art should understand that such a position , mating relationship, etc., the same applies to other components / other paired components.

The above descriptions are only exemplary embodiments of the present invention, and are not intended to limit the protection scope of the present invention, which is determined by the appended claims.

Claims (4)

1. A real-time geochemical data tester based on prediction of reservoir properties, characterized in that it comprises an installation part (1); a sliding part (2) is slidably installed on the inner wall of the installation part (1), and the installation part (1) It includes: an installation column (101), the installation column (101) has a vertical cylinder structure, the outer wall of the installation column (101) is provided with two kinds of clamping heads (102) with different structures, the top of the installation column (101) The hand-held lever (103) is arranged in a symmetrical handle structure, a display structure is hinged at the middle position of the top surface of the hand-held lever (103), and the sliding part (2) includes: a sliding frame (201), the sliding frame (201) is an inner frame Structure, the bottom of the sliding frame (201) is provided with an outer cylinder, the outer cylinder is sleeved on the outer wall of the mounting column (101), the top of the sliding frame (201) is fixed with a horizontally structured wave rod (202), and the sliding frame (201) A transmission wheel (203) is rotated on the inner wall of the installation column (101) near the outer cylinder, and a support member (3) is hingedly installed at the bottom of the installation member (1), and the support member (3) includes: a bottom support block (301), The bottom support block (301) is hingedly mounted on the bottom outer wall of the mounting part (1), the bottom support block (301) is arranged in six groups of a circular array structure, and the bottom surface of the bottom support block (301) is provided with anti-skid strips, A reinforcing rib (302) is installed on the outer wall of the bottom support block (301), a hand-held rod (103) is arranged on the top of the installation part (1), a clamping part (4) is installed on the hand-held rod (103), and a sliding part (2) ) a detection part (5) is sleeved and installed at the inner side, an extension assembly (6) is hingedly installed on the outer wall of the installation part (1), and the extension assembly (6) includes: an extension rod (601), the extension rod (601) ) is hingedly mounted on the outer wall of the mounting part (1), an extension rod (602) is slidably installed on the extension rod (601), a helical wire is arranged inside the extension rod (602), and a limiter is provided on the outer wall of the extension assembly (6) The component (7), the limit component (7) includes: a limit piece (701), the limit piece (701) is a "U"-shaped frame structure, the limit piece (701) is made of elastic material, and the limit The sheet (701) is fixed at the root and end position of the extension rod (601), the limit sheet (701) at the end position is equipped with a fixing block (702), and the end position of the extension assembly (6) is hingedly installed with auxiliary parts (9) , the auxiliary component (9) includes: auxiliary pieces (901), the auxiliary pieces (901) are provided with four groups in total, and the four groups of auxiliary pieces (901) are hingedly installed at the end positions of the extension rods (602), and the installation components (1) The symmetrical end of the extension assembly (6) on the outer wall is hingedly installed with the reinforcement assembly (8). 2. The real-time geochemical data tester based on prediction of reservoir properties according to claim 1, characterized in that: the clamping part (4) comprises: a clamping hook (401), the clamping hook ( 401) There are four groups in total, and each group of clamping hooks (401) is a hook-like structure, and the clamping hooks (401) are hingedly installed at the bottom of the hand-held rod (103) near the inner end. 3. The real-time geochemical data tester based on prediction of reservoir properties according to claim 1, characterized in that: the detection component (5) comprises: a detection rod (501), an upper end of the detection rod (501) The outer wall is provided with a symmetrical outer sliding plate (502), the outer sliding plate (502) is sleeved and installed on the inner wall of the mounting column (101), the outer sliding plate (502) and the transmission wheel (203) are engaged with each other, and the detection rod (501) The top is provided with an external block (503), the external block (503) and the detection rod (501) are connected by a wire, and the wire is arranged in a spiral structure. 4. The real-time geochemical data tester based on prediction of reservoir properties according to claim 1, characterized in that: the reinforcement component (8) comprises: reinforcement rods (801), and the reinforcement rods (801) are It is hingedly mounted on the outer wall of the symmetrical mounting part (1) of the extension assembly (6), and the end of the reinforcing rod (801) is swingably mounted with a connecting plate (802), and the connecting plate (802) has a "U"-shaped card plate frame structure.

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