CN218036874U - Reagent bottle loading mechanism and analytical equipment - Google Patents

Abstract

The utility model belongs to the technical field of medical instrument, a reagent bottle loading mechanism and analytical equipment is disclosed. The analysis equipment comprises a box body with an opening at one end and a box door arranged at the opening and pivoted with the box body; the reagent bottle loading mechanism comprises a loading platform, a longitudinal movement module, a transverse movement module and a connecting rod assembly. The loading platform is used for placing reagent bottles; the longitudinal movement module comprises a longitudinal guide rail, and the loading platform can slide on the longitudinal guide rail along a first direction; the transverse motion module comprises a transverse guide rail and a transverse driving unit, the transverse guide rail is fixedly arranged in the box body, the transverse driving unit can drive the longitudinal guide rail to slide on the transverse guide rail along a second direction, and the second direction is perpendicular to the first direction; one end of the connecting rod assembly is inserted into the loading platform along the second direction, the other end of the connecting rod assembly is connected with the box door, the connecting rod assembly drives the loading platform to enter and exit the box body along the longitudinal guide rail when the box door is opened and closed, the loading automation degree is higher, the loading operation is simpler and more convenient, and the working efficiency is higher.

Description

Reagent bottle loading mechanism and analytical equipment

Technical Field

The utility model relates to the technical field of medical equipment, especially, relate to a reagent bottle loading mechanism and analytical equipment.

Background

A biochemical analyzer is an instrument for measuring a specific chemical component in body fluid by using photoelectric colorimetric principle. Because of its fast measuring speed, high accuracy and small reagent consumption, it is widely used in hospitals, epidemic prevention stations and environmental monitoring. When analyzing, the sample of the object to be detected needs to be collected, and then the collected sample is put into the biochemical analysis equipment through the reagent bottle, so as to obtain the required information through analysis.

At present, when reagent bottles are loaded, after a box door is opened, a loading platform is pulled out of equipment manually, the reagent bottles are placed on the loading platform, the loading platform is pushed back to the equipment, and then the box door is closed, so that the loading work of the reagent bottles is completed. The manual loading mode is not only complicated in operation, but also increases the labor burden, so that the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a reagent bottle loading mechanism and analytical equipment loads degree of automation height, loads easy and simple to handle, and reagent bottle loads work efficiency height.

To achieve the purpose, the utility model adopts the following technical proposal:

on one hand, the reagent bottle loading mechanism is used for analytical equipment, the analytical equipment comprises a box body with an opening at one end and a box door arranged at the opening, and the box door is pivoted with the box body; reagent bottle loading mechanism includes:

the loading platform is used for placing a reagent bottle;

the loading table comprises a loading table body, a longitudinal movement module and a control module, wherein the loading table body comprises a first loading table and a second loading table;

the transverse motion module comprises a transverse guide rail and a transverse driving unit, the transverse guide rail is fixedly arranged in the box body, the longitudinal guide rail is slidably arranged on the transverse guide rail along a second direction, the second direction is perpendicular to the first direction, and the transverse driving unit can drive the longitudinal guide rail to slide along the transverse guide rail;

and one end of the connecting rod assembly can be inserted into the loading platform along the second direction, and the other end of the connecting rod assembly is connected with the box door, so that the box door can drive the loading platform to move along the longitudinal guide rail through the connecting rod assembly.

Optionally, a plurality of loading grooves are formed in the top of the loading platform, each loading groove has a first end and a second end opposite to each other along the extending direction of the loading groove, the first end is adjacent to the corresponding box door, the first end is provided with an inlet and an outlet, and the second end is closed.

Alternatively, the loading platform has a fan-shaped structure, and the loading grooves respectively extend in a radial direction of the fan-shaped structure.

Optionally, two sides of the loading groove in the width direction are provided with groove walls, and the height of each groove wall gradually increases from the first end to the second end along the extension direction of the loading groove.

Optionally, the connecting rod assembly comprises:

the connecting plate is slidably arranged in the box body, a connecting structure is arranged on the connecting plate, and the connecting plate can be inserted into the loading platform along the second direction through the connecting structure;

and one end of the connecting rod is fixedly connected with the box door, and the other end of the connecting rod is connected with the connecting plate in a sliding manner.

Optionally, a rolling element is arranged at one end of the connecting rod connected with the connecting plate, a sliding groove matched with the rolling element is arranged on the connecting plate, the rolling element is arranged in the sliding groove and can roll in the sliding groove along a third direction, and the third direction, the first direction and the second direction are perpendicular to each other.

Optionally, the reagent bottle loading mechanism further comprises a loading fixing component, the loading fixing component comprises a loading magnetic part and a loading magnetic part, the loading magnetic part is fixedly arranged on the loading platform, the loading magnetic part is fixedly arranged at one end of the longitudinal guide rail, which is far away from the box door, and the loading magnetic part can be attracted with the loading magnetic part;

the reagent bottle loading mechanism further comprises a connecting rod fixing component, the connecting rod fixing component comprises a connecting rod magnetic part and a connecting rod magnetic part arranged corresponding to the loading magnetic part, the connecting rod magnetic part is fixedly arranged on the connecting plate, and the connecting rod magnetic part can attract the connecting rod magnetic part.

Optionally, the connecting structure is a connecting pin, a connecting hole corresponding to the connecting pin is formed in the loading platform, and the connecting pin can be inserted into the connecting hole along the second direction.

Optionally, the lateral drive unit comprises:

the transmission assembly comprises two rotating wheels and a transmission belt, the transmission belt is sleeved on the outer sides of the two rotating wheels, and the transmission belt is fixedly connected with the longitudinal guide rail;

and the power part can drive one of the rotating wheels to rotate.

In another aspect, there is provided an analysis apparatus comprising the reagent bottle loading mechanism as described in any one of the above.

The beneficial effects of the utility model reside in that:

the utility model provides a reagent bottle loading mechanism and an analysis device, wherein a loading platform is slidably arranged on a longitudinal guide rail along a first direction; one end of the connecting rod assembly can be inserted with the loading platform along the second direction, the other end of the connecting rod assembly is connected with the box door, so that the box door can drive the loading platform to move along the longitudinal guide rail through the connecting rod assembly, the box body can be driven to enter and exit along the first direction when the box door is opened and closed, and when the transverse movement module drives the loading platform to slide along the second direction, the connecting rod assembly is inserted with the loading platform, so that the loading platform can be freely connected with or separated from the connecting rod assembly. Therefore, through the structure, the reagent bottle loading automation degree is higher, the loading operation is simpler and more convenient, and the working efficiency of the reagent bottle loading work is improved.

Drawings

FIG. 1 is an assembly view of the reagent bottle loading mechanism of the present invention;

FIG. 2 is a schematic view of the loading platform and the longitudinal movement module according to the present invention;

FIG. 3 is a schematic view of a portion of the connecting rod assembly of the present invention;

fig. 4 is a schematic view of a part of the lateral movement module of the present invention.

In the figure:

100. a box door;

1. a loading table; 11. Loading the groove;

2. a longitudinal movement module; 21. A longitudinal guide rail; 22. A longitudinal slide block;

3. a transverse movement module; 31. a transverse guide rail; 32. a lateral drive unit; 321. a transmission assembly; 3211. a transmission belt; 3212. a driving wheel; 3213. a driven wheel; 3214. clamping the connecting plate; 3215. a clamping plate; 322. a power member; 33. a transverse slide block;

4. a connecting rod assembly; 41. a connecting rod; 42. a connecting plate; 43. a connecting rod slider; 44. a connecting rod guide rail; 45. a rolling member; 46. a connecting shaft; 47. a connecting pin;

5. a base;

6. loading the fixed component; 61. loading a magnetic attraction piece; 62. loading a magnetic piece; 63. the connecting plate is magnetically attracted;

7. a connecting rod fixing component; 71. a connecting rod magnetic member; 72. a connecting rod magnetic attraction piece; 73. magnetically attracting the support plate;

8. a lateral detection assembly; 81. a transverse initial detection member; 82. a lateral end point detection member; 83. a lateral trigger;

9. a connecting rod detection assembly; 91. a connecting rod detection member; 92. a linkage trigger.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected", "connected" and "fixed" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature "on," "above" and "over" the second feature may include the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "right", etc. are used in an orientation or positional relationship based on that shown in the drawings only for convenience of description and simplicity of operation, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

In order to make reagent bottle loading operation more simple and convenient and have higher automation degree, the embodiment provides a reagent bottle loading mechanism and analytical equipment, and the analytical equipment comprises the reagent bottle loading mechanism.

The analysis equipment also comprises a box body and a box door 100, wherein one end of the box body is open, an installation space is arranged inside the box body, and the reagent bottle loading mechanism is arranged in the installation space; the door 100 is pivotally installed at an opening of the cabinet.

As shown in fig. 1 to 4, the reagent bottle loading mechanism includes a loading table 1, a longitudinal movement module 2, a transverse movement module 3, and a link assembly 4. The loading platform 1 is used for containing reagent bottles, the longitudinal movement module 2 comprises a longitudinal guide rail 21, in order to facilitate the loading platform 1 to slide on the longitudinal guide rail 21, the longitudinal movement module 2 is further provided with a longitudinal sliding block 22, the longitudinal sliding block 22 is slidably arranged on the longitudinal guide rail 21, the longitudinal sliding block 22 is fixedly connected with the loading platform 1, and the loading platform 1 can slide on the longitudinal guide rail 21 along a first direction through the longitudinal sliding block 22; the transverse motion module 3 comprises a transverse guide rail 31 and a transverse drive unit 32, the reagent bottle loading mechanism further comprises a base 5, the transverse guide rail 31 is fixedly arranged in an installation space in the box body through the base 5, the transverse motion module 3 further comprises a transverse sliding block 33, the transverse sliding block 33 is slidably arranged on the transverse guide rail 31, the longitudinal guide rail 21 is fixedly connected with the transverse sliding block 33, the transverse drive unit 32 drives the transverse sliding block 33 to slide on the transverse guide rail 31 along a second direction, the second direction is perpendicular to the first direction, and the loading table 1 can slide along the first direction and the second direction under the combined action of the longitudinal motion module 2 and the transverse motion module 3; the box door 100 can drive the loading platform 1 to move along the longitudinal guide rail 21 through the connecting rod assembly 4.

In the actual working process, the loading platform 1 has three working positions, namely a loading supply position, a loading waiting position and a loading position. The loading position is located at one end of the longitudinal rail 21 adjacent to the door 100, the loading waiting position and the loading waiting position are respectively located at two ends of the longitudinal rail 21, and the loading supplying position and the loading waiting position are respectively located at two ends of the transverse rail 31. When the loading platform is at the loading supply position, the reagent bottle placed on the loading platform can be supplied to the analysis equipment, and the sample in the reagent bottle can be analyzed. When reagent bottles need to be loaded, the transverse driving unit 32 is started to drive the transverse sliding block 33 to slide on the transverse guide rail 31 along the second direction, so that the longitudinal movement module 2 and the loading platform 1 above the transverse guide rail 31 are driven to slide from the loading supply position to the loading waiting position, then the box door 100 is opened, the connecting rod assembly 4 drives the loading platform 1 to slide out of the box body along the longitudinal guide rail 21 along the first direction by taking the longitudinal sliding block 22 as a medium while the box door 100 is gradually opened, when the box door 100 is completely opened, the loading platform 1 slides from the loading waiting position to the loading position, and at the moment, the box door 100 is approximately parallel to the horizontal plane and can be used as a temporary reagent bottle placing platform for placing reagent bottles into the loading platform 1; when the reagent bottle loading is finished, the door 100 is closed, the loading platform 1 is pushed by the link mechanism to move back from the loading position to the loading waiting position, at this time, the transverse driving unit 32 is started, and the loading platform 1 slides on the transverse guide rail 31 along the second direction from the loading waiting position to the loading supplying position.

Alternatively, as shown in fig. 1 and 2, the loading platform 1 is provided at the top with a plurality of loading grooves 11, the loading grooves 11 have opposite first and second ends along the extending direction thereof, the first end is adjacent to the door 100, the first end is provided with an inlet and outlet, and the second end is closed, so that a plurality of reagent bottles can be loaded at one time during loading, thereby improving the working efficiency during loading.

Alternatively, the loading table 1 has a fan-shaped structure, and the plurality of loading recesses 11 respectively extend in a radial direction of the fan-shaped structure. Loading platform 1 of fan-shaped structure compares in loading platform 1 of rectangle structure, and its volume is littleer, and the installation of being more convenient for can load more reagent bottles simultaneously, reduces operating personnel and loads the number of times to improve and load work efficiency, promote user experience.

Optionally, both sides of the loading groove 11 in the width direction are provided with groove walls, and the height of the groove walls gradually increases from the first end to the second end along the extending direction of the loading groove 11. Through the structural design that height after low before this kind, can not only fix the reagent bottle of placing better, and the design that loading platform 1 outward appearance presented certain radian more presses close to measurement personnel operating habit.

Optionally, as shown in fig. 1 and 3, the link assembly 4 includes a connecting plate 42 and a connecting rod 41, the connecting plate 42 is slidably disposed inside the box, and in order to facilitate the connecting plate 42 to better slide inside the box, in this embodiment, the link assembly 4 further includes a link slider 43 and a link guide 44, the connecting plate 42 slides on the link guide 44 through the link slider 43 along a first direction, and the link guide 44 is fixedly disposed inside the box. The connecting plate 42 is provided with a connecting structure, and the connecting plate 42 can be inserted into the loading platform 1 along a second direction through the connecting structure; when the loading platform 1 slides from the loading supply position to the loading waiting position, the connecting plate 42 is inserted into the loading platform 1 to form a whole, and the loading platform 1 moves along with the connecting plate 42; when the loading table 1 slides from the loading waiting position to the loading supplying position, the loading table 1 is separated from the connecting plate 42. One end of the connecting rod 41 is fixedly connected with the box door 100, and the other end is connected with the connecting plate 42 in a sliding manner, so that when the box door 100 is opened, the connecting plate 42 is driven by the connecting rod 41 to slide on the connecting rod guide rail 44 along the first direction, the loading platform 1 slides from the loading waiting position to the loading waiting position, when the box door 100 is closed, the loading platform 1 slides from the loading waiting position to the loading waiting position, the synchronous movement of the box door 100 and the loading platform 1 is realized through the connecting rod assembly 4, a movement motor is saved, and the operation steps are simplified.

Alternatively, as shown in fig. 1 and 3, the connecting structure is a connecting pin 47, the loading platform 1 is provided with a connecting hole corresponding to the connecting pin 47, the connecting pin 47 can be inserted into the connecting hole along the second direction, when the loading platform 1 is located at the loading waiting position, the connecting pin 47 is inserted into the connecting hole on the loading platform 1, so that the connecting plate 42 and the loading platform 1 are connected into a whole, and the loading platform 1 moves together with the connecting plate 42. When the loading table 1 slides from the loading waiting position to the loading supply position, the coupling pin 47 gradually disengages from the coupling hole along with the sliding of the loading table 1. The loading table 1 can be freely connected to and disconnected from the connecting plate 42 by the connecting action of the connecting pin 47.

Furthermore, a rolling member 45 is disposed at one end of the connecting rod 41 connected to the connecting plate 42, the connecting rod 41 is connected to the rolling member 45 through a connecting shaft 46, a sliding slot matched with the rolling member 45 is disposed on the connecting plate 42, the rolling member 45 is disposed in the sliding slot and can roll in the sliding slot along a third direction, for example, the rolling member 45 can be a bearing, wherein the third direction, the first direction and the second direction are perpendicular to each other, and a connecting slope is disposed at one end of the connecting rod 41 connected to the box door 100, and a surface of the box door 100 facing the loading platform 1 is connected to the connecting slope.

In the actual working process, when the box door 100 is closed, the rolling member 45 is located at the bottom end of the sliding groove of the connecting plate 42, when the box door 100 is gradually opened, the connecting rod 41 gradually drives the connecting plate 42 to gradually move away from the box body along the first direction, the rolling member 45 can also gradually move from the bottom end to the top end under the driving of the box door 100, when the box door 100 is completely opened, the box door 100 is approximately parallel to the horizontal plane, a temporary platform for placing reagent bottles is formed, and at the moment, the rolling member 45 is located at the top end of the sliding groove of the connecting plate 42. By providing the roller 45 between the connecting rod 41 and the connecting plate 42, the movement of the link assembly 4 by the door 100 is made smoother.

Optionally, as shown in fig. 1-3, the reagent bottle loading mechanism further includes a loading fixing component 6, the loading fixing component 6 includes a loading magnetic member 61 and a loading magnetic member 62, the loading magnetic member 62 is fixedly disposed on the loading platform 1, the loading magnetic member 61 is fixedly disposed at an end of the longitudinal rail 21 away from the door 100, and the loading magnetic member 61 can be attracted to the loading magnetic member 62; the loading fixing assembly 6 further comprises a magnetic attraction connecting plate 63, the magnetic attraction connecting plate 63 is fixedly arranged on the longitudinal slide block 22, one end of the magnetic attraction connecting plate 63 is fixedly connected with the loading platform 1, and the other end of the magnetic attraction connecting plate is connected with the loading magnetic attraction piece 61.

In the actual working process, the longitudinal guide rail 21 is provided with a longitudinal initial end and a longitudinal end, the longitudinal sliding block 22 is always kept at the longitudinal initial end by the magnetic force between the loading magnetic attraction piece 61 and the loading magnetic piece 62 under the condition of no external force, namely, when the door 100 is not opened, when the door 100 is opened, a pulling force is provided for the longitudinal sliding block 22, at the moment, the pulling force is greater than the magnetic force between the loading magnetic attraction piece 61 and the loading magnetic piece 62, so that the longitudinal sliding block 22 slides from the longitudinal initial end to the longitudinal end, when the door 100 is gradually closed from an opened state, the magnetic force between the loading magnetic attraction piece 61 and the loading magnetic piece 62 can be used as an assisting force to assist the closing of the door 100, and therefore, the door 100 is more labor-saving when being closed.

The reagent bottle loading mechanism further comprises a connecting rod fixing component 7, the connecting rod fixing component 7 comprises a connecting rod magnetic part 71 and a connecting rod magnetic part 72 which is arranged corresponding to the loading magnetic part 61, the connecting rod magnetic part 71 is fixedly arranged on the connecting plate 42, the connecting rod magnetic part 71 can be attracted with the connecting rod magnetic part 72, the loading fixing component 6 further comprises a magnetic support plate 73, and the loading magnetic part 61 is fixedly connected with the box body through the magnetic support plate 73.

In the actual working process, the link guide rail 44 is provided with the link initial end and the link terminal end, by the magnetic force between the link magnetic attraction piece 72 and the link magnetic piece 71, under the condition of no external force, that is, when the door 100 is not opened, the connecting plate 42 is always kept at the link initial end, when the door 100 is opened, the connecting rod 41 provides a pulling force to the connecting plate 42, at this time, the pulling force is greater than the magnetic force between the link magnetic attraction piece 72 and the link magnetic piece 71, so that the link sliding block 43 slides from the link initial end to the link terminal end, when the door 100 is gradually closed from the opened state, the magnetic force between the link magnetic attraction piece 72 and the link magnetic piece 71 can be used as an assisting force to assist the closing of the door 100, and therefore, the door 100 is more labor-saving when being closed.

Alternatively, as shown in fig. 2 and 4, the transverse driving unit 32 includes a transmission assembly 321 and a power member 322. The transmission assembly 321 comprises two rotating wheels and a transmission belt 3211, the transmission belt 3211 is sleeved outside the two rotating wheels, and the transmission belt 3211 is fixedly connected with the longitudinal guide rail 21; the power member 322 can drive one of the rotating wheels to rotate, and exemplarily, the power member 322 can be a motor, the rotating wheel connected to the motor is a driving wheel 3212, and the other rotating wheel is a driven wheel 3213. In addition, the transmission assembly 321 further includes a clamping connection plate 3214 and a clamping plate 3215, the clamping connection plate 3214 is fixedly connected with the longitudinal rail 21, and the clamping connection plate 3214 clamps the driving belt 3211 through the clamping plate 3215, so as to fixedly connect the longitudinal rail 21 and the driving belt 3211. When the motor drives the driving wheel 3212 to rotate, the belt sleeved outside the driving wheel 3212 is driven to rotate, so that the longitudinal guide rail 21 reciprocates in the second direction.

In order to better detect the movement state of the loading platform 1, as shown in fig. 1 to 4, the reagent bottle loading mechanism further includes a transverse detection assembly 8, the transverse detection assembly 8 includes a transverse initial detection member 81, a transverse end point detection member 82 and a transverse trigger member 83, the transverse trigger member 83 is fixedly connected to the longitudinal rail 21 and slides on the transverse rail 31 along the second direction along the longitudinal rail 21, the transverse initial detection member 81 is fixedly disposed at one end of the base 5 and is used for detecting whether the loading platform 1 is located at the loading supply position, and the transverse end point detection member 82 is fixedly disposed at the other end of the base 5 and is used for detecting whether the loading platform 1 is located at the loading waiting position; illustratively, the transverse initial detection member 81 and the transverse end-point detection member 82 both use raster detection, when the loading platform 1 is at the loading and feeding position, the transverse trigger member 83 will block the raster of the transverse initial detection member 81 to determine that the loading platform 1 is at the loading and feeding position, and when the loading platform 1 moves from the loading and feeding position to the loading and waiting position, the transverse trigger member 83 will block the raster of the transverse end-point detection member 82 to determine that the loading platform 1 is at the loading and waiting position.

Besides, the reagent bottle loading mechanism further comprises a connecting rod detection assembly 9, the connecting rod detection assembly 9 comprises a connecting rod detection piece 91 and a connecting rod trigger piece 92, the connecting rod trigger piece 92 is fixedly connected with the connecting plate 42 and moves along the first direction along with the connecting plate 42, the connecting rod detection piece 91 is fixedly arranged in the box body and is far away from one end of the box door 100 and used for detecting whether the connecting plate 42 retreats to a specified position or not when the box door 100 is closed, illustratively, the connecting rod detection piece 91 adopts optical grating detection, and when the connecting plate 42 retreats to the specified position, the connecting rod trigger piece 92 fixed with the connecting plate 42 can block the optical grating of the connecting rod detection piece 91, so that the connecting plate 42 is confirmed to retreat to the specified position.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Numerous obvious variations, rearrangements and substitutions will now occur to those skilled in the art without departing from the scope of the invention. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A reagent bottle loading mechanism is used for analytical equipment, the analytical equipment comprises a box body with one open end and a box door (100) arranged at the open end, and the box door (100) is pivoted with the box body;

its characterized in that, reagent bottle loading mechanism includes:

the loading platform (1), the loading platform (1) is used for placing a reagent bottle;

the longitudinal movement module (2), the longitudinal movement module (2) comprises a longitudinal guide rail (21), and the loading platform (1) is slidably arranged on the longitudinal guide rail (21) along a first direction;

the transverse movement module (3) comprises a transverse guide rail (31) and a transverse driving unit (32), the transverse guide rail (31) is fixedly arranged in the box body, the longitudinal guide rail (21) is slidably arranged on the transverse guide rail (31) along a second direction, the second direction is perpendicular to the first direction, and the transverse driving unit (32) can drive the longitudinal guide rail (21) to slide along the transverse guide rail (31);

one end of the connecting rod assembly (4) can be inserted into the loading platform (1) along the second direction, and the other end of the connecting rod assembly (4) is connected with the box door (100), so that the box door (100) can drive the loading platform (1) to move along the longitudinal guide rail (21) through the connecting rod assembly (4).

2. The reagent bottle loading mechanism according to claim 1, wherein the loading platform (1) is provided at a top thereof with a plurality of loading recesses (11), the loading recesses (11) having opposite first and second ends along an extension direction thereof, the first end being adjacent to the door (100), the first end being provided with the access opening, and the second end being closed.

3. The reagent bottle loading mechanism according to claim 2, wherein the loading table (1) has a fan-shaped structure, and the plurality of loading recesses (11) extend in a radial direction of the fan-shaped structure, respectively.

4. The reagent bottle loading mechanism according to claim 2, wherein both sides of the loading groove (11) in the width direction are provided with groove walls, and the height of the groove walls is gradually increased from the first end to the second end along the extending direction of the loading groove (11).

5. Reagent bottle loading mechanism according to claim 1, wherein the linkage assembly (4) comprises:

the connecting plate (42) is slidably arranged inside the box body, a connecting structure is arranged on the connecting plate (42), and the connecting plate (42) can be inserted into the loading platform (1) along the second direction through the connecting structure;

one end of the connecting rod (41) is fixedly connected with the box door (100), and the other end of the connecting rod (41) is connected with the connecting plate (42) in a sliding mode.

6. The reagent bottle loading mechanism according to claim 5, wherein a rolling member (45) is disposed at one end of the connecting rod (41) connected to the connecting plate (42), a sliding slot matched with the rolling member (45) is disposed on the connecting plate (42), the rolling member (45) is disposed in the sliding slot and can roll in the sliding slot along a third direction, and the third direction, the first direction and the second direction are perpendicular to each other.

7. The reagent bottle loading mechanism according to claim 5, further comprising a loading fixing component (6), wherein the loading fixing component (6) comprises a loading magnetic attraction piece (61) and a loading magnetic piece (62), the loading magnetic piece (62) is fixedly arranged on the loading table (1), the loading magnetic attraction piece (61) is fixedly arranged at one end of the longitudinal guide rail (21) far away from the box door (100), and the loading magnetic attraction piece (61) can attract the loading magnetic piece (62);

reagent bottle loading mechanism still includes connecting rod fixed subassembly (7), connecting rod fixed subassembly (7) include connecting rod magnetism spare (71) and with the piece (61) is inhaled to the loading magnetism and the corresponding connecting rod magnetism of setting up of piece (72) is inhaled, connecting rod magnetism spare (71) set firmly in connecting plate (42), connecting rod magnetism spare (71) can with the piece (72) actuation is inhaled to the connecting rod magnetism.

8. The reagent bottle loading mechanism according to claim 5, wherein the connecting structure is a connecting pin (47), a connecting hole corresponding to the connecting pin (47) is formed on the loading platform (1), and the connecting pin (47) can be inserted into the connecting hole along the second direction.

9. Reagent bottle loading mechanism according to claim 1, wherein the transverse drive unit (32) comprises:

the transmission assembly (321), the transmission assembly (321) includes two rotating wheels and a transmission belt (3211), the transmission belt (3211) is sleeved outside the two rotating wheels, and the transmission belt (3211) is fixedly connected with the longitudinal guide rail (21);

a power member (322), wherein the power member (322) can drive one of the rotating wheels to rotate.

10. An analysis apparatus comprising the reagent bottle loading mechanism according to any one of claims 1 to 9.

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