CN116162531A

CN116162531A - Storage device for detecting bacterial drug resistance

Info

Publication number: CN116162531A
Application number: CN202211688183.1A
Authority: CN
Inventors: 萧晨路; 杨之涛; 徐白莹; 吴眉; 石大可
Original assignee: Ruinjin Hospital Affiliated to Shanghai Jiaotong University School of Medicine Co Ltd
Current assignee: Ruinjin Hospital Affiliated to Shanghai Jiaotong University School of Medicine Co Ltd
Priority date: 2022-12-27
Filing date: 2022-12-27
Publication date: 2023-05-26

Abstract

The invention relates to the technical field of bacterial storage, in particular to a storage device for detecting bacterial drug resistance. The invention provides a storage device for detecting bacterial drug resistance, which can effectively reduce mixed bacterial infection and can more rapidly drip wax on a bacterial culture dish. A storage device for detecting bacterial drug resistance comprises a storage cabinet, a cabinet door, a placing table, a reciprocating mechanism and the like; the storage cabinet is characterized in that the storage cabinet is internally provided with a main storage chamber and an auxiliary storage chamber, the cabinet door is connected to one side, close to the auxiliary storage chamber, of the storage cabinet through a hinge, the placing table is placed at the bottom of one side of the main storage chamber in the storage cabinet, and the reciprocating mechanism is arranged on one side of the main storage chamber in the storage cabinet. The motor can drive the lead screw to rotate, and then drives the disc and rotate, opens intermittent type liquid pipe that send, and the alcohol in the intermittent type liquid pipe can flow to four rotation hydrojet pipes, evenly spouts by a plurality of spraying hole on the rotation hydrojet pipe again, disinfects the auxiliary storage room of cabinet and places the platform and disinfects, guarantees the aseptic environment when dripping wax to the bacterial culture dish more.

Description

Storage device for detecting bacterial drug resistance

Technical Field

The invention relates to the technical field of bacterial storage, in particular to a storage device for detecting bacterial drug resistance.

Background

Bacteria are one of main groups of organisms, belong to a bacterial domain and are the most abundant type of all organisms, the shape of the bacteria is quite various, and the bacteria are mainly spherical, rod-shaped and spiral, are pathogens of a plurality of diseases, can spread the diseases among normal human bodies in various ways, have stronger infectivity and are extremely harmful to society.

When bacteria are detected, the drug resistance of the bacteria is often detected, so that the drug resistance of the bacteria is judged, the bacteria are required to be stored when the drug resistance of the bacteria is detected, a semisolid puncture storage method is generally adopted when the strains such as mould, saccharomycetes, actinomycetes, aerobic bacteria and the like are stored, bacterial cultures are inoculated into a semisolid culture medium, and after 18-24 hours of culture, a layer of sterile liquid paraffin with the thickness of about 1cm is added, and then the bacteria are stored in a refrigerator.

But the staff often neglects the pollution of bacterium in the air when dripping wax to the bacterial culture dish, and the bacterial culture dish infects staff's hand or external bacterium very easily, can lead to like this the bacterial culture dish to receive the infection of external miscellaneous fungus, and the detection to the bacterium after influencing, and the staff is manual to drip wax one by one to the bacterial culture dish, and inefficiency, and bacterial culture dish wax sealing in time can not influence the survival rate of bacterium.

Disclosure of Invention

In view of the above, the present invention provides a storage device for detecting bacterial resistance, which can effectively reduce the infection of mixed bacteria and can more rapidly drip wax on a bacterial culture dish.

The technical proposal is as follows: the utility model provides a bacterial resistance detects and uses storage device, includes cabinet, cabinet door, places platform, reciprocating motion mechanism, liquid feeding mechanism and intermittent type hydrojet mechanism, main reservoir and vice reservoir are divided into in the cabinet, the cabinet door passes through hinge connection in the cabinet and is close to one side of vice reservoir, place the platform and place main reservoir one side bottom in the cabinet, place the bench side and open six spacing groove, place six spacing inslot of platform and all placed the bacterial culture dish, reciprocating motion mechanism establishes main reservoir one side in the cabinet, liquid feeding mechanism establishes main reservoir one side in the cabinet, intermittent type hydrojet mechanism establishes vice reservoir one side in the cabinet.

Preferably, the reciprocating mechanism comprises a motor, a screw rod, a sliding plate, a fixed sliding groove, a supporting plate, a liquid conveying pipe, a liquid collecting box and a fixed slotted rod, wherein the motor is fixedly connected to the middle part of one side of the auxiliary storage chamber in the storage cabinet, an output shaft of the motor is rotationally connected with the storage cabinet, the screw rod is fixedly connected to the output shaft of the motor, the screw rod is located on one side of the main storage chamber in the storage cabinet, the sliding plate is connected to the screw rod through threads, the sliding plate is fixedly connected with the placing table, two fixed sliding grooves are symmetrically arranged on one side of the main storage chamber in the storage cabinet, the liquid conveying pipe is slidably connected to one side of the main storage chamber in the storage cabinet, the supporting plate is symmetrically arranged on two sides of the liquid conveying pipe, the liquid collecting box is connected to the lower end of the liquid conveying pipe and is communicated with the liquid conveying pipe, the fixed slotted rod is slidably connected to one side of the main storage chamber in the storage cabinet, the fixed slotted rod is fixedly connected to the liquid collecting box, the fixed slotted rod is located below the fixed slotted rod, and the fixed slotted rod is slidably connected to the liquid collecting rod.

Preferably, the liquid feeding mechanism comprises a slotted cylinder, a connecting plate, supporting springs, sliding liquid feeding pipes, fixed slotted guide plates, return springs and push rods, six slotted cylinders are fixedly connected to the bottom of the inner side of the liquid collecting box, six sliding liquid feeding pipes are connected to the slotted cylinders in a sliding mode, six sliding liquid feeding pipes are connected to the liquid collecting box in a sliding mode, the sliding liquid feeding pipes are located right above the bacteria culture dish, threads are arranged on the outer sides of the lower portions of the sliding liquid feeding pipes, the six sliding liquid feeding pipes are fixedly connected with the connecting plate, six supporting springs are connected between the connecting plate and the liquid collecting box, the supporting springs are sleeved on the sliding liquid feeding pipes, the fixed slotted guide plates are connected to the lower portion of one side of a main storage chamber in the storage cabinet in a sliding mode, the fixed slotted guide plates are located on one side, far away from the screw rod, inclined faces are arranged on the fixed slotted guide plates, the return springs are connected between the fixed slotted guide plates and the storage cabinet, and the push rods are fixedly connected to one sliding liquid feeding pipe, and the push rods are in contact with the fixed slotted guide plates.

As the preference, intermittent type hydrojet mechanism is including promoting stock, wedge, reset spring, fixed block, slip slotting pole, intermittent type liquid feed pipe, rotation hydrojet pipe, dwang and disc, promote stock fixed connection on sliding plate upper portion, promote stock and the slip type of storing the cabinet and be connected, wedge slip type is connected on promoting stock, be connected with reset spring between promotion stock and the wedge, fixed block fixed connection is in storing the interior vice bin one side upper portion of storing the cabinet, just the fixed block is located one side that fixed slotting guide plate was kept away from to the storing cabinet, slip slotting pole slip type is connected on the fixed block, slip slotting pole and wedge slip type are connected, it has a fluting and top to be equipped with four lugs to open slip slotting pole lower part, intermittent type liquid feed pipe fixed connection is in storing the interior vice bin one side upper portion of storing the cabinet, intermittent type liquid feed pipe's water inlet is located outside the storing the cabinet, intermittent type liquid feed pipe upper rotation is connected with four dwang, and four dwang bottom all with intermittent type liquid feed pipe and four vice bin one side upper portion of storing chamber, just the intermittent type liquid feed pipe and disc are located the intermittent type liquid feed pipe, and the intermittent type is connected with the disc, and is located intermittent type rotary slotting pole and is kept away from the top, and is connected with intermittent type liquid feed pipe.

Preferably, the automatic bacterial culture dish further comprises a uniform liquid spraying mechanism, wherein the uniform liquid spraying mechanism is arranged on the storage cabinet and is connected with the sliding liquid conveying pipe, the uniform liquid spraying mechanism comprises a sliding support, a rotating liquid conveying pipe and a short liquid conveying pipe, the sliding support is connected to one lower portion of one side of a main storage chamber in the storage cabinet in a sliding mode, six rotating liquid conveying pipes are connected to the sliding support in a rotating mode, the rotating liquid conveying pipes are connected with the sliding liquid conveying pipes through threads, the rotating liquid conveying pipes are communicated with the sliding liquid conveying pipes, four short liquid conveying pipes are communicated to the bottoms of each rotating liquid conveying pipe, and the short liquid conveying pipes are located right above the bacterial culture dish.

Preferably, the sliding grooving device further comprises a trapezoid block, wherein the trapezoid block is fixedly connected to one side of the lower end of the sliding grooving rod, and the trapezoid block is in contact with the pushing long rod.

Preferably, the device further comprises swing rods and torsion springs, wherein the swing rods are fixedly connected to one ends of the four rotating spray pipes, which are close to the intermittent liquid feeding pipes, respectively, the swing rods are in contact with the four protruding blocks of the sliding grooved rods, and the torsion springs are connected between the swing rods and the intermittent liquid feeding pipes.

The beneficial effects of the invention are as follows:

1. the inside of the storage cabinet is in a sterile environment, the motor can drive the screw rod to rotate, then the driving long rod and the wedge block are driven to move, the wedge block is driven to move to push the sliding grooved rod to move upwards, then the disc is driven to rotate, the intermittent liquid feeding pipe is opened, alcohol in the intermittent liquid feeding pipe can flow to four rotating liquid spraying pipes, then the spraying holes in the rotating liquid spraying pipes are evenly sprayed out, the auxiliary storage chamber of the storage cabinet and the placing table are sterilized and disinfected, after the cabinet door is opened by workers, external bacteria can be brought into the storage cabinet, bacterial culture dishes are infected when the follow-up wax dropping is caused, and therefore the sterile environment for the bacterial culture dishes during wax dropping is ensured more.

2. The motor reversal can drive the lead screw reversal, and then drive the catch bar to keeping away from the direction removal of cabinet door, and by fixed fluting deflector extrusion downwardly moving, and then drive six slip liquid feed pipes downwardly moving, liquid paraffin in the header tank can flow the slip liquid feed intraductal, drip on the bacterial culture dish again, seal the wax to the bacterial culture dish, six bacterial culture dishes drip wax together simultaneously, can drip the wax to the bacterial culture dish more fast, improve the efficiency that the bacterial culture dish dripped wax, because be aseptic environment in the cabinet, there is not manual touching of staff when dripping the wax to the bacterial culture dish in addition, can effectively reduce the infection of bacterial culture dish, and then effectively reduce the influence to the bacterium save and detect.

3. The sliding liquid conveying pipe moves downwards to drive the rotating liquid conveying pipe and the short liquid conveying pipe to rotate slowly, meanwhile, liquid paraffin in the sliding liquid conveying pipe flows into the rotating liquid conveying pipe, then the liquid paraffin is uniformly dripped onto the bacterial culture dish through the short liquid conveying pipe, and the liquid paraffin is more uniformly dripped onto the bacterial culture dish through the slow rotation of the short liquid conveying pipe, so that the liquid paraffin covers the bacterial culture dish more completely, and the bacterial culture dish is sealed and stored.

4. The sliding slotting rod can push the four swinging rods to swing upwards when moving upwards, the swinging rods can drive the rotating liquid spraying pipes to rotate by a certain angle, and because the swinging directions of the swinging rods at the left side and the right side are different, the rotating directions of the rotating liquid spraying pipes at the left side and the right side are also different, the range of alcohol spraying can be expanded by the outward rotation of the four rotating liquid spraying pipes, and further the inner side of the storage cabinet is disinfected and sterilized more thoroughly, and the infection of bacterial culture dishes is reduced.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a partially cut-away perspective view of the reciprocating mechanism and the liquid feeding mechanism of the present invention.

FIG. 3 is a schematic view of a partially cut-away perspective view of the liquid delivery mechanism and the intermittent liquid spray mechanism of the present invention.

Fig. 4 is an enlarged perspective view of fig. 3 a according to the present invention.

Fig. 5 is a schematic view of a partially cut-away perspective structure of the present invention.

Fig. 6 is an enlarged perspective view of the structure of fig. 5B according to the present invention.

Fig. 7 is an enlarged perspective view of fig. 5C according to the present invention.

FIG. 8 is a schematic view of a partial cross-sectional perspective view of a uniform spray mechanism of the present invention.

Fig. 9 is an enlarged perspective view of D in fig. 8 according to the present invention.

Fig. 10 is an enlarged perspective view of the E of fig. 8 according to the present invention.

Fig. 11 is a partially cut-away perspective view of the reciprocating mechanism of the present invention.

Fig. 12 is an enlarged perspective view of the F of fig. 11 according to the present invention.

FIG. 13 is a schematic view of a partially cut-away perspective view of an intermittent spray mechanism of the present invention.

FIG. 14 is a schematic perspective view in cross-section of the push rod, wedge block and return spring of the present invention.

Fig. 15 is a schematic perspective view of a fixed grooved bar according to the present invention.

Reference numerals illustrate: 101_storage cabinet, 102_cabinet door, 21_placement table, 22_bacteria culture dish, 31_motor, 32_screw, 33_slide plate, 34_fixed slide, 35_support plate, 36_infusion tube, 37_header, 38_fixed slotted lever, 41_slotted cylinder, 42_connection plate, 43_support spring, 44_slide feed tube, 45_fixed slotted guide plate, 46_return spring, 47_push rod, 51_push long rod, 511_wedge, 512_return spring, 52_fixed block, 53_slide slotted lever, 54_intermittent feed tube, 55_rotary spray tube, 56_rotary lever, 57_disk, 61_slide support, 62_rotary feed tube, 63_short feed tube, 7_trapezoidal block, 81_swing lever, 82_torsion spring.

Detailed Description

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Example 1

The utility model provides a bacterial resistance detects and uses storage device, shown in fig. 1-15, including cabinet 101, cabinet door 102, place the platform 21, reciprocating motion mechanism, liquid feeding mechanism and intermittent type hydrojet mechanism, divide into main storage room and vice storage room in the cabinet 101, cabinet door 102 passes through hinge connection in the side that cabinet 101 is close to vice storage room, place the platform 21 and place main storage room one side bottom in cabinet 101, place the platform 21 and be used for placing bacterial culture dish 22, it has six spacing grooves to open to place the bench 21 upside, all placed bacterial culture dish 22 in six spacing grooves of placing the platform 21, reciprocating motion mechanism establishes in main storage room one side in cabinet 101, reciprocating motion mechanism is used for removing and places the platform 21, liquid feeding mechanism establishes in main storage room one side in cabinet 101, liquid feeding mechanism is used for dripping liquid paraffin to bacterial culture dish 22, intermittent type hydrojet mechanism establishes in vice storage room one side in cabinet 101, intermittent type hydrojet mechanism is used for disinfecting in the cabinet 101.

The reciprocating mechanism comprises a motor 31, a screw rod 32, a sliding plate 33, a fixed sliding groove 34, a supporting plate 35, a liquid collecting tank 36 and a fixed slotted rod 38, wherein the motor 31 is connected to the middle part of one side of a secondary storage chamber in a storage cabinet 101 through bolts, an output shaft of the motor 31 is connected with the storage cabinet 101 in a rotating mode, the screw rod 32 is fixedly connected to the output shaft of the motor 31, the screw rod 32 is horizontally arranged, the screw rod 32 is located one side of the primary storage chamber in the storage cabinet 101, the sliding plate 33 is connected to the screw rod 32 through threads, the sliding plate 33 is vertically arranged, the sliding plate 33 is fixedly connected with the placing table 21, two fixed sliding grooves 34 are welded on one side of the primary storage chamber in the storage cabinet 101, two fixed sliding grooves 34 are horizontally arranged, the liquid conveying pipe 36 is connected to the upper part of one side of the primary storage chamber in the storage cabinet 101 in a sliding mode, the liquid conveying pipe 36 is in an L-shaped structure, the two sides of the liquid conveying pipe 36 are hinged to the supporting plate 35, the two supporting plates 35 are horizontally arranged on the two sides of the liquid conveying pipe 36, the two supporting plates are horizontally arranged on the two sides of the liquid conveying pipe 36 are horizontally connected to the upper side of the main storage chamber 37 and the liquid collecting tank 37, the two fixed sliding grooves are horizontally arranged on the upper side of the main storage chamber and are fixedly connected to the liquid collecting tank 37, the upper side of the fixed slotted rod is fixedly arranged on the upper side of the sliding plate 37, and the upper side of the sliding plate is fixedly connected to the upper side of the sliding plate is fixedly arranged, and is fixedly connected with the upper groove 37.

The liquid feeding mechanism comprises a slotted cylinder 41, a connecting plate 42, a supporting spring 43, a sliding liquid feeding pipe 44, a fixed slotted guide plate 45, a return spring 46 and a push rod 47, six slotted cylinders 41 are welded at the bottom of the inner side of the liquid collecting box 37, six sliding liquid feeding pipes 44 are connected in the slotted cylinder 41 in a sliding mode, six sliding liquid feeding pipes 44 are vertically arranged, the six sliding liquid feeding pipes 44 are connected with the liquid collecting box 37 in a sliding mode, the sliding liquid feeding pipes 44 are located right above the bacterial culture dish 22, threads are arranged on the outer side of the lower portion of the sliding liquid feeding pipes 44, six connecting plates 42 are fixedly connected between the sliding liquid feeding pipes 44, the connecting plates 42 are rectangular plates, six supporting springs 43 are connected between the connecting plates 42 and the liquid collecting box 37, the supporting springs 43 are sleeved on the sliding liquid feeding pipes 44, the fixed slotted guide plate 45 is connected with the lower portion of one side of a main storage chamber in the storage cabinet 101 in a sliding mode, the fixed slotted guide plate 45 is located on one side of the storage cabinet 101, the fixed slotted guide plate 45 is located right above the bacterial culture dish 22, the fixed slotted guide plate 45 is connected with the return spring 47, and the fixed slotted guide plate 45 is connected with the push rod 47 in a sliding mode, and the sliding guide plate 47 is connected with the fixed slotted guide plate 47.

The intermittent liquid spraying mechanism comprises a pushing long rod 51, a wedge block 511, a return spring 512, a fixed block 52, a sliding slotted rod 53, an intermittent liquid feeding pipe 54, a rotating liquid spraying pipe 55, a rotating rod 56 and a disc 57, wherein the pushing long rod 51 is welded on the upper part of the sliding plate 33, the pushing long rod 51 is vertically arranged, the pushing long rod 51 is in sliding connection with the storage cabinet 101, the wedge block 511 is in sliding connection with the pushing long rod 51, the return spring 512 is connected between the pushing long rod 51 and the wedge block 511, the return spring 512 is positioned in the wedge block 511, the fixed block 52 is hinged on the upper part of one side of a secondary storage chamber in the storage cabinet 101, the fixed block 52 is positioned on the side of the storage cabinet 101 far away from the fixed slotted guide plate 45, the fixed block 52 is a rectangular block, the sliding slotted rod 53 is in sliding connection with the fixed block 52, the sliding slotted rod 53 is in sliding connection with the wedge block 511, the lower part of the sliding slotting rod 53 is provided with a slot, the top of the sliding slotting rod 53 is provided with four lugs, the intermittent liquid feeding pipe 54 is fixedly connected to the upper part of one side of the auxiliary storage chamber in the storage cabinet 101, the water inlet of the intermittent liquid feeding pipe 54 is positioned outside the storage cabinet 101, the intermittent liquid feeding pipe 54 is rotatably connected with four rotating liquid spraying pipes 55, the bottoms of the four rotating liquid spraying pipes 55 are communicated with the intermittent liquid feeding pipe 54, the four rotating liquid spraying pipes 55 are horizontally arranged, the bottoms and the top of the four rotating liquid spraying pipes 55 are provided with a plurality of spraying holes, the rotating rod 56 is placed in the slot of the sliding slotting rod 53, the rotating rod 56 is rotatably connected with the intermittent liquid feeding pipe 54, the rotating rod 56 is in a Z-shaped structure, the disc 57 is welded at one end of the rotating rod 56 far away from the sliding slotting rod 53, the disc 57 is in a circular structure, the disc 57 is used for blocking the intermittent liquid feeding pipe 54, the disc 57 is positioned in the intermittent liquid feeding pipe 54, and the disc 57 is in contact with the intermittent liquid feeding pipe 54.

In the practical operation, a worker firstly adds a proper amount of liquid paraffin into the liquid collecting tank 37 through the liquid conveying pipe 36, the liquid paraffin cannot flow out because the liquid conveying pipe 44 is blocked by the slotted cylinder 41, then the worker introduces alcohol into the intermittent liquid conveying pipe 54, the intermittent liquid conveying pipe 54 cannot be introduced into the rotary liquid spraying pipe 55 because the disc 57 blocks the intermittent liquid conveying pipe 54, the worker opens the cabinet door 102, then the motor 31 is started, the output shaft of the motor 31 rotates to drive the screw rod 32 to rotate, the screw rod 32 rotates to drive the sliding plate 33 and the placing table 21 to move towards the direction close to the cabinet door 102, the sliding plate 33 drives the long rod 51 to move when moving towards the direction close to the cabinet door 102, the long rod 51 is pushed to move to drive the wedge block 511 and the reset spring 512 to move together, the wedge 511 moves to push the sliding slotting rod 53 to move upwards, the sliding slotting rod 53 moves upwards to drive the rotating rod 56 to swing, the rotating rod 56 swings to drive the disc 57 to rotate, the disc 57 rotates to stop the intermittent liquid feeding pipe 54, alcohol in the intermittent liquid feeding pipe 54 flows to the four rotating liquid spraying pipes 55 and is evenly sprayed out of a plurality of spraying holes on the rotating liquid spraying pipes 55, the auxiliary storage chamber of the storage cabinet 101 and the placing table 21 are sterilized, external bacteria are brought into the storage cabinet 101 after the cabinet door 102 is opened by staff, the bacteria culture dish 22 is infected when wax is subsequently dripped, the wedge 511 continues to move and is separated from the sliding slotting rod 53, the sliding slotting rod 53 resets downwards under the action of gravity, the sliding slotting rod 53 resets downwards to drive the rotating rod 56 to swing reversely, the rotating rod 56 swings reversely to drive the disc 57 to rotate reversely, the disc 57 rotates reversely to block the intermittent liquid feeding tube 54 again, the rotating liquid spraying tube 55 does not spray alcohol any more, when the sliding plate 33 moves to the end of the fixed slotted rod 38, the sliding plate 33 moves continuously to drive the fixed slotted rod 38 to move, the fixed slotted rod 38 moves to drive the liquid collecting tank 37, the supporting plate 35 and the liquid conveying tube 36 to move together, the liquid collecting tank 37 moves to drive the slotted cylinder 41, the connecting plate 42, the supporting spring 43, the sliding liquid feeding tube 44 and the pushing rod 47 to move together, the pushing rod 47 moves along the inclined surface of the fixed slotted guide plate 45 to push the fixed slotted guide plate 45 to move away from the sliding liquid feeding tube 44, the return spring 46 is compressed, the pushing rod 47 moves continuously to be out of contact with the fixed slotted guide plate 45, the return spring 46 resets to drive the fixed slotted guide plate 45 to reset, when the sliding plate 33 moves to the end of the screw rod 32, the placing table 21 is completely positioned in the auxiliary storage chamber of the storage cabinet 101, at this time, a worker turns off the motor 31, then places six bacteria culture dishes 22 needing to be sealed with wax on the limiting grooves of the placing table 21 respectively, then starts the motor 31 and adjusts the output shaft of the motor 31 to rotate reversely, the output shaft of the motor 31 rotates reversely to drive the screw rod 32 to rotate reversely, the screw rod 32 rotates reversely to drive the sliding plate 33 and the placing table 21 to reset in a direction away from the cabinet door 102, then drives the long rod 51 to move away from the cabinet door 102, drives the wedge 511 and the reset spring 512 to move together, the wedge 511 moves to be in contact with the sliding slotted rod 53 again, the wedge 511 moves continuously to be extruded by the sliding slotted rod 53, the reset spring 512 is compressed, the wedge 511 moves continuously and is not extruded by the sliding slotted rod 53 any more, the reset spring 512 resets to drive the wedge 511 to reset, the fixed slotting rod 38 can be driven to reset when the sliding plate 33 resets, the liquid collecting box 37 can be driven by the fixed slotting rod 38 to reset, the connecting plate 42, the supporting plate 35 and the infusion tube 36 are driven by the liquid collecting box 37 to reset, the slotting cylinder 41 can be driven by the sliding liquid conveying tube 44 to be blocked by the slotting cylinder 41, the supporting spring 43, the sliding liquid conveying tube 44 and the pushing rod 47 move towards the direction away from the cabinet door 102, the pushing rod 47 moves towards the direction away from the cabinet door 102 and can be contacted with the fixed slotting guide plate 45 again, the pushing rod 47 moves continuously and can be pressed by the fixed slotting guide plate 45 to move downwards, the pushing rod 47 moves downwards and can drive one of the sliding liquid conveying tubes 44 to move downwards, one of the sliding liquid conveying tubes 44 moves downwards and can drive the other five sliding liquid conveying tubes 44 to move downwards through the connecting plate 42, the supporting spring 43 is stretched, the sliding liquid conveying tube 44 moves downwards and can not be blocked by the slotting cylinder 41 any more, liquid paraffin in the liquid collecting box 37 can flow into the sliding liquid conveying tube 44 and then drip onto the bacterial culture dish 22, the bacterial culture dish 22 is sealed by the direction, the pushing rod 47 moves continuously and can not be pressed by the fixed slotting guide plate 45, at this time, the sliding liquid conveying tube 44 can not be prevented from being affected by the sliding to the sliding tube 44 and can be moved upwards by the sliding and the bacteria culture dish 22, the bacteria culture dish is prevented from being polluted by the sliding, and the bacteria culture dish 22.

After the bacterial culture dish 22 is completely dripped with wax, a worker stops introducing alcohol into the intermittent liquid feeding pipe 54, then the output shaft of the motor 31 is adjusted to rotate forward, the placing table 21 is driven to move towards the direction close to the placing table 21, then the worker takes out the bacterial culture dish 22 on the placing table 21, and then the output shaft of the motor 31 is adjusted to rotate reversely, so that the placing table 21 is driven to reset.

Example 2

On the basis of embodiment 1, as shown in fig. 7-8, the device further comprises a uniform liquid spraying mechanism, wherein the uniform liquid spraying mechanism is arranged on the storage cabinet 101 and is connected with the sliding liquid conveying pipe 44, the uniform liquid spraying mechanism is used for more uniformly dripping wax on the bacteria culture dish 22, the uniform liquid spraying mechanism comprises a sliding support 61, a rotating liquid conveying pipe 62 and a short liquid conveying pipe 63, the sliding support 61 is slidably connected to the lower part of one side of the main storage chamber in the storage cabinet 101, six rotating liquid conveying pipes 62 are rotatably connected to the sliding support 61, the rotating liquid conveying pipes 62 are in threaded connection with the sliding liquid conveying pipe 44, the rotating liquid conveying pipes 62 are communicated with the sliding liquid conveying pipe 44, four short liquid conveying pipes 63 are communicated to the bottom of each rotating liquid conveying pipe 62, and the short liquid conveying pipes 63 are vertically arranged and are located right above the bacteria culture dish 22.

The sliding liquid conveying pipe 44 moves towards the direction close to the cabinet door 102 and drives the sliding support 61, the rotating liquid conveying pipe 62 and the short liquid conveying pipe 63 to move together, the sliding liquid conveying pipe 44 moves towards the direction far away from the cabinet door 102 and drives the sliding support 61, the rotating liquid conveying pipe 62 and the short liquid conveying pipe 63 to move together, the sliding support 61 and the six rotating liquid conveying pipes 62 are rotationally connected, the sliding liquid conveying pipe 44 moves downwards and drives the rotating liquid conveying pipe 62 to slowly rotate through threads, meanwhile, liquid paraffin in the sliding liquid conveying pipe 44 flows into the rotating liquid conveying pipe 62, and then the liquid paraffin is uniformly dripped onto the bacterial culture dish 22 through the four short liquid conveying pipes 63, and the rotating liquid conveying pipe 62 can drive the short liquid conveying pipe 63 to slowly rotate, so that the liquid paraffin is more uniformly dripped onto the bacterial culture dish 22, the liquid paraffin covers the bacterial culture dish 22 more completely, the bacterial culture dish 22 is sealed, and the liquid paraffin in the upward movement of the sliding liquid conveying pipe 44 is no longer dripped.

Example 3

On the basis of embodiment 2, as shown in fig. 11, a trapezoid block 7 is further included, the trapezoid block 7 is welded on the lower end side of the sliding grooved bar 53, and the trapezoid block 7 is in contact with the push long bar 51.

Initially, the long rod 51 is pushed to move towards the direction close to the cabinet door 102 and simultaneously pushes the trapezoid block 7 to move upwards, the long rod 51 is pushed to move continuously and be separated from the trapezoid block 7, when the long rod 51 is pushed to reset, the long rod 51 is pushed to move continuously and then pushes the trapezoid block 7 to move upwards, the trapezoid block 7 moves upwards and drives the sliding slotting rod 53 to move upwards, the disc 57 is driven to rotate, the intermittent liquid feeding pipe 54 is opened, alcohol can be evenly sprayed out from a plurality of spraying holes on the rotating liquid spraying pipe 55, at the moment, the placing table 21 is moved into a main storage chamber of the storage cabinet 101, sprayed alcohol cannot be sprayed onto the bacterial culture dish 22, and because the length of the trapezoid block 7 is shorter than that of the sliding slotting rod 53, the sprayed alcohol is less, waste of the alcohol is reduced, meanwhile, disinfection and sterilization are carried out again in the storage cabinet 101, and the sterile environment in the storage cabinet 101 is ensured.

Example 4

On the basis of embodiment 3, as shown in fig. 4-13, the device further comprises a swinging rod 81 and a torsion spring 82, wherein one ends of the four rotating spray pipes 55 close to the intermittent liquid feeding pipe 54 are fixedly connected with the swinging rod 81, each swinging rod 81 is respectively contacted with four protruding blocks of the sliding slotted rod 53, the torsion spring 82 is connected between the four swinging rods 81 and the intermittent liquid feeding pipe 54, and the torsion spring 82 is sleeved on the swinging rod 81.

When the sliding slotting rod 53 moves upwards, the four convex blocks push the four swing rods 81 to swing upwards, the torsion springs 82 are twisted, the swing rods 81 swing upwards to drive the rotating spray pipes 55 to rotate by a certain angle, and as the directions of the swing rods 81 at the left side and the right side are different, the swing directions of the swing rods 81 at the left side and the right side are also different, so that the rotating directions of the rotating spray pipes 55 at the left side and the right side are different, the range of alcohol spraying is expanded by rotating the four rotating spray pipes 55 and spraying alcohol, the inner side of the storage cabinet 101 is disinfected and sterilized more thoroughly, and the infection of the bacterial culture dish 22 is reduced; when the sliding grooved bar 53 is reset downwards, the swinging bar 81 is not pressed any more, and the torsion spring 82 is reset to drive the swinging bar 81 and the rotary liquid spraying tube 55 to reset.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a bacterial drug resistance detects and uses storage device, its characterized in that, including cabinet (101), cabinet door (102), place platform (21), reciprocating motion mechanism, send liquid mechanism and intermittent type hydrojet mechanism, divide into main storage room and vice storage room in cabinet (101), cabinet door (102) are close to one side of vice storage room at cabinet (101) through hinge connection, place platform (21) and place main storage room one side bottom in cabinet (101), place the side and open six spacing grooves on platform (21), place six spacing inslot of platform (21) all have placed bacterial culture dish (22), reciprocating motion mechanism establishes main storage room one side in cabinet (101), send liquid mechanism to establish main storage room one side in cabinet (101), vice storage room one side in cabinet (101) is established to intermittent type mechanism.

2. The storage device for bacterial drug resistance detection according to claim 1, wherein the reciprocating mechanism comprises a motor (31), a screw rod (32), a sliding plate (33), fixed sliding grooves (34), a supporting plate (35), a liquid collecting tank (37) and a fixed slotted rod (38), wherein the motor (31) is fixedly connected to the middle part of one side of an auxiliary storage chamber in the storage cabinet (101), an output shaft of the motor (31) is rotationally connected with the storage cabinet (101), the screw rod (32) is fixedly connected to the output shaft of the motor (31), the screw rod (32) is positioned on one side of a main storage chamber in the storage cabinet (101), the sliding plate (33) is connected to the screw rod (32) through threads, two fixed sliding grooves (34) are fixedly connected to the upper part of one side of the main storage chamber in the storage cabinet (101), the liquid conveying pipe (36) is in symmetrical arrangement, the liquid conveying pipe (36) is in sliding connection with the upper part of one side of the main storage chamber in the storage cabinet (101), the two fixed sliding plates (35) are fixedly connected to the two supporting plates (35), the liquid collecting box (37) is connected to the lower end of the infusion tube (36) and is communicated with the infusion tube (36), the fixed slotted rod (38) is connected to the upper portion of one side of the main storage chamber in the storage cabinet (101) in a sliding mode, the fixed slotted rod (38) is fixedly connected with the liquid collecting box (37), the fixed slotted rod (38) is located below the fixed sliding groove (34), and the sliding plate (33) is connected with the fixed slotted rod (38) in a sliding mode.

3. The storage device for bacterial drug resistance detection according to claim 2, wherein the liquid feeding mechanism comprises a grooved cylinder (41), a connecting plate (42), a supporting spring (43), a sliding liquid feeding pipe (44), a fixed grooved guide plate (45), a return spring (46) and a pushing rod (47), six grooved cylinders (41) are fixedly connected to the bottom of the inner side of the liquid collecting tank (37), the six grooved cylinders (41) are both connected with the sliding liquid feeding pipe (44) in a sliding manner, the six sliding liquid feeding pipes (44) are both connected with the liquid collecting tank (37) in a sliding manner, the sliding liquid feeding pipe (44) is located right above the bacterial culture dish (22), threads are arranged on the outer side of the lower portion of the sliding liquid feeding pipe (44), the six sliding liquid feeding pipes (44) are fixedly connected with the connecting plate (42), six supporting springs (43) are connected between the connecting plate (42) and the liquid collecting tank (37), the supporting springs (43) are sleeved on the sliding liquid feeding pipe (44), the fixed grooved guide plate (45) is connected to the inner side of the guide plate (101) which is far away from the inclined surface of the main guide plate (101), a return spring (46) is connected between the fixed slotted guide plate (45) and the storage cabinet (101), the push rod (47) is fixedly connected to one of the sliding liquid delivery pipes (44), and the push rod (47) is in contact with the fixed slotted guide plate (45).

4. The storage device for bacterial resistance detection according to claim 3, wherein the intermittent liquid spraying mechanism comprises a push long rod (51), a wedge block (511), a return spring (512), a fixed block (52), a sliding slotted rod (53), an intermittent liquid feeding tube (54), a rotary liquid spraying tube (55), a rotary rod (56) and a disc (57), wherein the push long rod (51) is fixedly connected to the upper part of the sliding plate (33), the push long rod (51) is slidably connected with the storage cabinet (101), the wedge block (511) is slidably connected to the push long rod (51), a return spring (512) is connected between the push long rod (51) and the wedge block (511), the fixed block (52) is fixedly connected to the upper part of one side of the auxiliary storage chamber in the storage cabinet (101), the fixed block (52) is positioned on the side of the storage cabinet (101) away from the fixed slotted guide plate (45), the sliding slotted rod (53) is slidably connected to the fixed block (52), the sliding slotted rod (53) is slidably connected to the upper part of the wedge block (511), the upper part of the auxiliary storage chamber (53) is slidably connected to the upper part of the auxiliary storage chamber (101), the water inlet of intermittent type liquid feed pipe (54) is located outside cabinet (101), be connected with four rotation hydrojet pipes (55) on intermittent type liquid feed pipe (54) rotation, and four rotation hydrojet pipe (55) bottom all is linked together with intermittent type liquid feed pipe (54), four rotation hydrojet pipe (55) bottom and top all open a plurality of spraying hole, dwang (56) are placed in the fluting of slip fluting pole (53), dwang (56) are connected with intermittent type liquid feed pipe (54) rotation, disc (57) fixed connection is kept away from the one end of slip fluting pole (53) at dwang (56), disc (57) are located intermittent type liquid feed pipe (54), disc (57) and intermittent type liquid feed pipe (54) contact.

5. The storage device for bacterial drug resistance detection according to claim 4, further comprising a uniform liquid spraying mechanism, wherein the uniform liquid spraying mechanism is arranged on the storage cabinet (101) and is connected with the sliding liquid conveying pipes (44), the uniform liquid spraying mechanism comprises sliding supports (61), rotating liquid conveying pipes (62) and short liquid conveying pipes (63), the sliding supports (61) are slidably connected to the lower portion of one side of the main storage chamber in the storage cabinet (101), six rotating liquid conveying pipes (62) are rotatably connected to the sliding supports (61), the rotating liquid conveying pipes (62) are in threaded connection with the sliding liquid conveying pipes (44), the rotating liquid conveying pipes (62) are communicated with the sliding liquid conveying pipes (44), four short liquid conveying pipes (63) are communicated to the bottom of each rotating liquid conveying pipe (62), and the short liquid conveying pipes (63) are located right above the bacterial culture dish (22).

6. The storage device for bacterial resistance detection according to claim 5, further comprising a trapezoid block (7), wherein the trapezoid block (7) is fixedly connected to the lower end side of the sliding grooved bar (53), and the trapezoid block (7) is in contact with the pushing long bar (51).

7. The storage device for detecting bacterial drug resistance according to claim 6, further comprising swing rods (81) and torsion springs (82), wherein one ends of the four rotating liquid spraying pipes (55) close to the intermittent liquid feeding pipe (54) are fixedly connected with the swing rods (81), each swing rod (81) is respectively contacted with four protruding blocks of the sliding slotted rod (53), and the torsion springs (82) are connected between the four swing rods (81) and the intermittent liquid feeding pipe (54).