CN210176423U - Culture medium magazine device of uncapping - Google Patents

Abstract

A medium cartridge lid-opening device comprising: the device comprises a sliding cable trolley and a drive control unit, wherein the sliding cable trolley comprises a bottom plate and a jacking mechanism, an upper orifice plate and a lower orifice plate are arranged on one side of the bottom plate, and the drive control unit comprises a first drive motor and a second drive motor; the first driving motor controls the jacking mechanism, so that when the material box descends from the sliding cable trolley, the box cover of the material box is limited in the pore of the upper pore plate, and the box body of the material box is limited in the pore of the lower pore plate, so that the box body and the box cover are separated; the second driving motor drives the upper orifice plate to rotate towards one side of the lower orifice plate in the direction parallel to the bottom plate, so that the upper orifice plate and the lower orifice plate are correspondingly staggered in the direction perpendicular to the bottom plate.

Description

Culture medium magazine device of uncapping

Technical Field

The utility model relates to a culture medium partial shipment device and method technical field, concretely relates to culture medium box device of uncapping.

Background

Because the automatic flat culture medium subpackaging instrument (hereinafter referred to as subpackaging instrument) replaces the traditional manual subpackaging culture dish (also called as inverted flat plate) mode, the automatic flat culture medium subpackaging instrument has many advantages, dozens of brands of subpackaging instruments are supplied on the market, but the subpackaging instruments are basically the same and different in structure and can only be used for subpackaging culture mediums into the culture dish, and the culture dish after subpackaging is mainly used for detecting environmental microorganisms, such as sedimentary bacteria, planktonic bacteria or surface bacteria and the like in the detection environment; can also be used for inoculating microorganism culture by streaking or coating.

If the inoculation is performed by pouring, it is necessary to transfer a diluted sample solution with a certain gradient to the dish and to fill the dish with culture medium. The existing subpackaging instrument in the market can not be used for inoculating and culturing by a pouring method, namely the requirement of uniformly mixing a culture medium and a bacterium liquid which is filled in a culture dish in advance is realized while the culture medium is subpackaged in the culture dish. In order to realize reasonable split charging of the culture medium and the bacteria liquid, a culture medium material box cover opening device is needed; the multi-channel synchronous uncovering separation operation is needed to realize the simultaneous subpackaging of various culture mediums and the efficiency of the subpackaging of the culture mediums to the greatest extent, and the subsequent material box oscillation and uniform mixing operation and the colony counting operation are convenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the above problem, provide a culture medium magazine device of uncapping, through the multichannel setting, to the box body of magazine and the operation that the lid separation was uncapped, realize steadily injecting into the magazine with sample liquid and culture medium.

The utility model adopts the technical proposal that:

a medium cartridge lid-opening device comprising: the device comprises a sliding cable trolley and a drive control unit, wherein the sliding cable trolley comprises a bottom plate and a jacking mechanism, an upper orifice plate and a lower orifice plate are arranged on one side of the bottom plate, and the drive control unit comprises a first drive motor and a second drive motor; wherein,

the first driving motor controls the jacking mechanism, so that when the material box descends from the sliding cable trolley, the box cover of the material box is limited in the pore of the upper pore plate, the box body of the material box is limited in the pore of the lower pore plate, and the box body and the box cover are separated;

the second driving motor drives the upper orifice plate to rotate towards one side of the lower orifice plate in the direction parallel to the bottom plate, so that the upper orifice plate and the lower orifice plate are correspondingly staggered in the direction perpendicular to the bottom plate.

Further, the bottom plate is in go up orifice plate one side and set up the mount pad set up one and a pair of bearing in the mount pad, the one end of axle is connected go up the orifice plate, and the connected mode is fixed connection, the other end and a first band pulley of axle are connected, first band pulley by second driving motor drives, second driving motor installs the opposite side of bottom plate, still set up a locating pin on the mount pad, locating pin one end is fixed on the mount pad, the locating pin other end is connected go up the orifice plate, go up the orifice plate with the junction of locating pin sets up an arc wall, the locating pin is located in the arc wall.

Furthermore, the cover opening device is a multi-channel cover opening device, each channel cover opening device comprises an upper hole plate, a mounting seat, a shaft, a pair of bearings, a positioning pin, a belt wheel, a lower hole plate and a jacking mechanism, and the multi-channel synchronous action of the cover opening devices is realized.

Further, the dual-channel cover opening device comprises a first upper orifice plate and a second upper orifice plate, the first upper orifice plate and the second upper orifice plate rotate towards two sides of the lower orifice plate in the direction parallel to the lower orifice plate, and the rotating directions of the first upper orifice plate and the second upper orifice plate are opposite.

Further, the first upper orifice plate and the second upper orifice plate are cam cap structural members.

Further, the second driving motor is connected with the first belt wheel, a second belt wheel and an auxiliary belt wheel through a belt, and the second driving motor controls the rotation directions of the first belt wheel and the second belt wheel to be opposite.

Further, the jacking mechanism comprises two jacking parts, a lead screw, a cross rod and two sliding rails, wherein the lead screw passes through the cross rod and the sliding rails are connected with the two jacking parts, a first driving motor drives a belt pulley, the belt pulley drives the lead screw to transmit, and the lead screw moves up and down to drive the jacking parts to synchronously move up and down.

The utility model has the advantages that:

(1) the operation of double channels can realize the simultaneous subpackage of various culture mediums;

(2) the aim of injecting the culture medium into the material box is conveniently realized from different directions, such as the plate paving by a pouring method is realized;

(3) prevent that follow-up multiple culture medium partial shipment or magazine vibration mixing from polluting the lid during operation, conveniently carry out bacterial colony count operation.

Drawings

FIG. 1 is a schematic view of the box cover of the utility model opened on the strop cart;

fig. 2 is a schematic position diagram of the drive control unit.

The reference numbers in the drawings are respectively:

1. getting off the vehicle through a sliding rope; 2, a bottom plate;

3. a jacking mechanism; 5, an upper orifice plate;

51. a first upper orifice plate; a second upper orifice plate;

6. a lower orifice plate; 7, a material box;

8. a box cover; 9, a box body;

10. a mounting seat; a shaft 11;

12. a bearing; 13, positioning pins;

14. a first pulley; an arc-shaped groove;

16. a first drive motor; a second pulley;

18. an auxiliary pulley; a second drive motor;

20. a lead screw; a cross bar;

22. a slide rail; a pulley;

24. a third drive motor; and 25, a chute.

Detailed Description

The following describes in detail embodiments of the medium cassette handling device and the method of handling the medium cassette according to the present invention with reference to the drawings.

Referring to fig. 1, the utility model provides a culture medium box device of uncapping, including strop ropeway dolly 1 and drive control unit, drive control unit does strop ropeway dolly 1 provides the drive and controls strop ropeway dolly 1 accomplishes the operation of uncapping.

Referring to fig. 1, the strop cart 1 includes a bottom plate 2 and a jacking mechanism 3, one end of the bottom plate 2 is provided with a chute 25, the chute 25 is mounted on an outer surface of a strop (not shown), the strop is driven by a strop motor, and the strop cart 1 moves under the drive of the strop motor. One side of the bottom plate 2 is provided with an upper pore plate 5 and a lower pore plate 6, the holes of the upper pore plate and the lower pore plate are stepped holes, the box is divided into a box cover and a box body, and the box cover is larger than the box body and is used for covering the box body. The diameter above the shoulder of the stepped hole of the upper orifice plate 5 is larger than the outer diameter of the box cover, the diameter below the shoulder is smaller than the outer diameter of the box cover and larger than the outer diameter of the box body, the diameter above the shoulder of the lower orifice plate 6 is larger than the outer diameter of the box body, and the diameter below the shoulder is smaller than the outer diameter of the box body. When the material box 7 descends from the sliding cable trolley 1, the box cover 8 is limited in the pore channel of the upper pore plate 5, and the box body 9 is limited in the pore channel of the lower pore plate 6, so that the separation of the box cover 8 and the box body 9 is realized.

Referring to fig. 2, the driving control unit includes a first driving motor 16, and the jacking mechanism 3 includes two jacking components 31, a lead screw 20, a cross bar 21 and two sliding rails 22. The jacking parts 31 are arranged in parallel with the slide rails 22, the jacking parts 31 are connected with the slide rails 22 through the cross rods 21, two ends of each cross rod 21 are fixedly connected with the two jacking parts 31, and the cross rods 21 slide relative to the slide rails 22; one end of the lead screw 20 is connected with the cross bar 21, the outer wall of the end of the lead screw 20 is fixed on the cross bar 21, the other end of the lead screw 20 is connected with a belt wheel 23, the first driving motor 16 drives the belt wheel 23, and the belt wheel 23 drives the lead screw 20 to transmit; thus, the movement of the screw rod 20 drives the two jacking components 31 to move up and down synchronously. In this embodiment, the first driving motor 16 drives the jacking mechanism 3, and the jacking mechanism 3 controls the material box 7 of the feeding unit to move down onto the strop cart 1, so as to separate the box cover 8 of the material box 7 from the box body 9.

Referring to fig. 1 and 2, the cover opening device is a multi-channel cover opening device, and each channel cover opening device comprises a bottom plate 2, a jacking mechanism 3, an upper orifice plate 5, a lower orifice plate 6, a mounting seat 10, a shaft 11, a pair of bearings 12, a positioning pin 13 and a first belt pulley 14.

In an embodiment of the present invention, the cover opening device is a dual-channel cover opening device.

In this embodiment, the bottom plate 2 is close to one side surface of the upper orifice plate 5 sets up the mount pad 10, the mount pad 10 has a hole, one end of a shaft 11 runs through the mount pad 10 behind the hole be connected with one first band pulley 14, first band pulley 14 is fixed the bottom plate 2 deviates from the surface of one side of the upper orifice plate 5, the shaft 11 with be equipped with a pair of bearing 12 between the mount pad 10, the other end of shaft 11 is connected the upper orifice plate 5, the connected mode is fixed connection, still set up a locating pin 13 on the mount pad 10, the one end of locating pin 13 is fixed on the mount pad 10, the other end of locating pin 13 is connected the upper orifice plate 5, the upper orifice plate 5 with the junction of locating pin 13 sets up an arc wall 15, locating pin 13 is located in the arc wall 15. When the first belt pulley 14 rotates, the shaft 11 is driven to rotate, the shaft 11 drives the upper orifice plate 5 to rotate, when the upper orifice plate 5 rotates, the positioning pin 13 rotates in the arc-shaped groove 15, and the positioning pin 13 plays a role in positioning and limiting the upper orifice plate 5.

In this embodiment, the dual-path lid opening device includes a first upper orifice plate 51 and a second upper orifice plate 52, the first upper orifice plate 51 and the second upper orifice plate 52 are cam lid structural members, and the arc-shaped groove 15 is located at one end of the first upper orifice plate 51 and the second upper orifice plate 52, where the arc size is smaller.

Continuing to refer to fig. 2, the driving control unit further includes a second driving motor 19, the second driving motor 19 controls the rotation of the first pulley 14, a second pulley 17 and an auxiliary pulley 18, the rotation directions of the first pulley 14 and the second pulley 17 are opposite, and the dual-channel uncapping device synchronously operates in dual channels, and the first pulley 14, the second pulley 17, the auxiliary pulley 18 and the second driving motor 19 are disposed on a side surface of the bottom plate 2 facing away from the upper orifice plate 5.

Referring to fig. 1 and 2, in the present embodiment, the first upper orifice 51 corresponds to the first pulley 14, the second upper orifice 52 corresponds to the second pulley 17, since the rotation directions of the first belt pulley 14 and the second belt pulley 17 are opposite, the rotation direction of the rotor of the second driving motor 19 is controlled, so that the first upper orifice plate 51 and the second upper orifice plate 52 are parallel to the direction of the lower orifice plate 6 and rotate towards two sides of the lower orifice plate 6, the rotation directions of the first upper orifice plate 51 and the second upper orifice plate 52 are opposite, the separated box cover 8 and the box body 9 are staggered relatively in the direction vertical to the bottom plate 1, when the trolley 1 moves to the sample liquid injection area, the sample liquid above the box cover 8 can be injected into the box body 9 along the vertical direction.

Referring to fig. 2, the driving control unit further includes a third driving motor 24, and the third driving motor 24 drives an oscillating mechanism (not shown), so as to realize that the oscillating mechanism 24 oscillates and mixes the box body 9 of the magazine 7, which is not specifically described in the present invention.

The utility model discloses culture medium box device of uncapping's application method does:

the first driving motor 16 is started and controlled to enable the jacking part 31 to descend to the low position and be located below the sliding cable trolley 1, the material box 7 descends under the action of gravity, the box cover 8 is limited at the position of the upper hole plate 5 under the action of the stepped hole of the upper hole plate 5, the box body 9 continues to descend and is limited at the position of the lower hole plate 6 by the stepped hole of the lower hole plate 6, and the box cover 8 and the box body 9 are separated.

And the second driving motor 19 is started and controlled to drive the first belt wheel 14 and the second belt wheel 17 to rotate, the first belt wheel 14 and the second belt wheel 17 drive the first upper orifice plate 51 and the second upper orifice plate 52 to rotate respectively, so that the first upper orifice plate 51 and the second upper orifice plate 52 rotate towards two sides of the lower orifice plate 6 in a direction parallel to the lower orifice plate 6, the rotating directions of the first upper orifice plate 51 and the second upper orifice plate 52 are opposite, the relative staggering of the box cover 8 and the box body 9 in a direction vertical to the bottom plate 1 is realized, and the cover opening operation is realized.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. A medium magazine uncapping device is characterized by comprising: the device comprises a sliding cable trolley and a drive control unit, wherein the sliding cable trolley comprises a bottom plate and a jacking mechanism, an upper orifice plate and a lower orifice plate are arranged on one side of the bottom plate, and the drive control unit comprises a first drive motor and a second drive motor; wherein,

the first driving motor controls the jacking mechanism, so that when the material box descends from the sliding cable trolley, the box cover of the material box is limited in the pore of the upper pore plate, the box body of the material box is limited in the pore of the lower pore plate, and the box body and the box cover are separated;

the second driving motor drives the upper orifice plate to rotate towards one side of the lower orifice plate in the direction parallel to the bottom plate, so that the upper orifice plate and the lower orifice plate are correspondingly staggered in the direction perpendicular to the bottom plate.

2. The medium cartridge decapping device according to claim 1, wherein: the bottom plate is in go up orifice plate one side and set up the mount pad set up one and a pair of bearing in the mount pad, the one end of axle is connected go up the orifice plate, and the connected mode is fixed connection, the other end and a first band pulley of axle are connected, first band pulley by second driving motor drives, second driving motor installs the opposite side of bottom plate, still set up a locating pin on the mount pad, locating pin one end is fixed on the mount pad, the locating pin other end is connected go up the orifice plate, go up the orifice plate with the junction of locating pin sets up an arc wall, the locating pin is located in the arc wall.

3. The medium cartridge decapping device according to claim 2, wherein: the cover opening device is a multi-channel cover opening device, each channel cover opening device comprises an upper pore plate, a mounting seat, a shaft, a pair of bearings, a positioning pin, a belt wheel, a lower pore plate and a jacking mechanism, and the multi-channel synchronous action of the cover opening devices is realized.

4. The medium cartridge decapping device according to claim 3, wherein: the double-channel cover opening device comprises a first upper orifice plate and a second upper orifice plate, the first upper orifice plate and the second upper orifice plate rotate towards two sides of the lower orifice plate in the direction parallel to the lower orifice plate, and the rotating directions of the first upper orifice plate and the second upper orifice plate are opposite.

5. The medium cartridge decapping device according to claim 4, wherein: the first upper orifice plate and the second upper orifice plate are cam cover structural members.

6. The medium cartridge decapping device according to claim 5, wherein: the second driving motor is connected with the first belt wheel, the second belt wheel and the auxiliary belt wheel through a belt, and the second driving motor controls the rotation directions of the first belt wheel and the second belt wheel to be opposite.

7. The medium cartridge decapping device according to claim 6, wherein: the jacking mechanism comprises two jacking parts, a lead screw, a cross rod and two sliding rails, wherein the lead screw passes through the cross rod and the sliding rails are connected with the two jacking parts, a first driving motor drives a belt pulley, the belt pulley drives the lead screw to transmit, and the lead screw moves up and down to drive the jacking parts to synchronously move up and down.

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