CN218544949U - High-capacity refrigeration storage device - Google Patents

Abstract

The utility model belongs to the technical field of external diagnosis medical treatment and health clinical examination, specifically disclose a cold-stored storage device of large capacity, include: the sample rack storage device comprises a box body, wherein a three-dimensional rotating mechanism and a plurality of sample rack storage positions are arranged in the box body, the three-dimensional rotating mechanism can convey the plurality of sample rack storage positions in a reciprocating manner, and sample racks are placed on the sample rack storage positions; the sample rack caching platform is provided with a caching station for placing a sample rack; a sample conveying unit including a sample conveying rail that conveys a sample; the sample interaction manipulator is used for transferring samples between the sample conveying track and the sample rack on the caching station; the sample rack internal and external conveying interaction unit comprises a conveyor belt and a power part for driving the conveyor belt to move back and forth between the box body and the sample rack cache platform, and the conveyor belt can convey the sample rack in the box body and the sample rack on the sample rack cache platform mutually. The utility model discloses can improve the efficiency of storing or taking the sample.

Description

High-capacity refrigeration storage device

Technical Field

The utility model relates to an external diagnosis medical treatment health clinical examination technical field, concretely relates to cold-stored storage device of large capacity.

Background

At present, samples need to be kept for a period of time after corresponding analysis is carried out, and repeated determination is carried out when clinical diagnosis disputes appear, and the samples usually need to be stored in a refrigerated manner, so that related analysis indexes in the samples can be kept at a lower temperature.

At present, a common disposal mode is that after a sample is analyzed, the sample is placed in a designated storage refrigerator after being labeled manually, if a certain sample is required to be measured, the label is searched manually, and then the sample is searched manually on a rack.

SUMMERY OF THE UTILITY MODEL

The utility model provides a cold-stored storage device of large capacity, aim at improves the efficiency of storing or taking the sample.

The utility model discloses a following technical scheme realizes: a high capacity refrigerated storage unit comprising:

the sample rack storage positions are arranged on the sample rack storage positions, and sample racks are placed on the sample rack storage positions;

the sample rack caching platform is provided with a caching station for placing the sample rack;

a sample conveying unit including a sample conveying rail that conveys a sample;

the sample interaction manipulator is used for transferring samples between the sample conveying track and the sample rack on the caching station;

the sample rack internal and external conveying interaction unit is arranged between the box body and the sample rack cache table, and comprises a conveying belt and a power part for driving the conveying belt to reciprocate between the box body and the sample rack cache table, and the conveying belt can convey the sample rack in the box body and the sample rack on the sample rack cache table mutually.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

according to the scheme, the sample rack is placed on the sample rack storage position, the three-dimensional swing mechanism drives the sample rack to reciprocate, the database information system query technology in the prior art can be matched in practical application, the idle sample rack in the box body, namely the sample rack without a loaded sample, is queried, then the idle sample rack is conveyed to the position of the sample rack inlet and outlet through the three-dimensional swing mechanism, the sample rack is waited to be conveyed to the cache station of the sample rack cache platform through the internal and external conveying interaction unit, and the sample on the sample conveying track is waited to be clamped to the idle sample rack by the sample interaction manipulator.

After the samples are loaded on the sample rack on the buffer station of the sample rack buffer station, the sample rack loaded with the samples is conveyed to the sample rack storage position of the box body for storage through the sample internal and external conveying interaction unit.

Can take out or put into sample frame from sample frame buffer memory platform or from sample frame storage position through the conveyer belt in this scheme, convenient operation, and power part can drive conveyer belt reciprocating motion between box and sample frame buffer memory platform to play the purpose of conveying sample frame.

Above-mentioned in-process can realize the purpose of conveying sample frame automatically, need not to rely on the manual work to select, take sample frame completely, can realize the purpose of storage sample through automated operation to can effectual improvement storage sample's efficiency, the labour cost of using manpower sparingly.

Further, the power part comprises a sample rack conveying platform, a supporting block and a power unit for driving the supporting block to horizontally reciprocate; the supporting shoe with sample frame conveying platform horizontal sliding connection, be provided with the drive division that the drive conveyer belt removed and the lift portion that the drive conveyer belt goes up and down on the supporting shoe, the upper surface of conveyer belt with the upper surface parallel and level of sample frame buffer platform.

Has the beneficial effects that: power unit is used for driving the supporting shoe motion in this scheme to the realization drives the conveyer belt reciprocating motion's between box and sample frame buffer memory platform purpose, and the conveying motion of conveyer belt itself can be realized in the setting of drive division, is convenient for get or put out a sample frame. And the lifting part can drive the conveyor belt to move up and down, so that when the sample rack needs to be transported, the conveyor belt upwards pushes the bottom of the sample rack, the sample rack is lifted for a certain distance, and the sample rack is pressed on the conveyor belt to be conveniently and smoothly conveyed.

Conveyer belt upper surface and sample frame buffer memory bench upper surface parallel and level in this scheme, the smooth realization of being convenient for is got or the sample frame is put.

Further, the power unit is of a screw pair structure, the screw pair structure is located on the sample frame conveying platform, and the conveying belt is installed on the supporting block;

the screw pair structure comprises a screw and a motor, one end of the screw is connected with the motor, the other end of the screw is in running fit with the side wall of the sample frame conveying platform, the motor drives the screw to rotate, and the supporting block is in threaded fit with the screw.

Has the advantages that: the power unit in this scheme adopts the vice quick-witted structure of lead screw, utilizes the rotary motion of lead screw and the screw-thread fit relation of lead screw and supporting shoe, realizes the removal of supporting shoe to drive the conveyer belt and remove.

Furthermore, a plurality of buffer storage stations are arranged on the sample frame buffer storage platform and are located on the same straight line, a sample frame conveying guide rail is arranged at the bottom of the sample frame conveying platform, and the sample frame conveying guide rail and the sample frame buffer storage platform are arranged in parallel.

Has the advantages that: a plurality of buffer memory stations in this scheme are convenient for realize simultaneously that load the sample on the buffer memory station and get the sample frame that has loaded the sample through the conveyer belt, and efficiency is higher. Therefore, when the conveyor belt takes the idle sample rack in the box body, the subsequent samples can be continuously clamped on the sample rack of the buffer station, and the whole process operation cannot be influenced.

Further, install on the sample frame buffer platform and abandon the pipeline, the both ends of abandoning the pipeline are located the top and the below of sample buffer platform respectively, the below of abandoning the pipeline is equipped with abandons the garbage bin.

Has the beneficial effects that: and for the samples needing to be discarded, the samples enter a discarding garbage can through a discarding pipeline to finish discarding and collecting.

Further, still include the refrigeration unit, the refrigeration unit includes refrigeration case and the cold pipeline that looses, the one end of the cold pipeline that looses communicates with the air outlet of refrigeration case, and the other end of the cold pipeline that looses is located in the box, the refrigeration incasement is equipped with the refrigeration module, the box with still be equipped with the return air pipeline between the refrigeration case, the refrigeration module can circulate the refrigeration with the gas that gets into the refrigeration case from the box.

Has the beneficial effects that: the refrigeration unit in this scheme can be to the internal cold that looses of box, plays refrigerated effect, and the cold-stored storage sample of being convenient for to still be provided with the return air pipeline in this scheme, be convenient for like this circulate refrigeration for refrigeration speed.

Furthermore, the three-dimensional swing mechanism comprises a closed-loop chain, two chain wheels and a power transmission mechanism, the two chain wheels are respectively positioned on the inner side of the closed-loop chain and meshed with the closed-loop chain, the power transmission mechanism drives the chain wheels to rotate, and the sample rack storage positions are sequentially distributed on the closed-loop chain at intervals.

Has the beneficial effects that: through the rotation of power transmission mechanism drive closed loop chain in this scheme to drive sample frame reciprocating motion, be convenient for seek and take.

Furthermore, each sample frame storage position is provided with a plurality of sample frames side by side.

Has the advantages that: so set up, can furthest utilize accommodation space and the space of storing the sample frame to realize large capacity storage.

Furthermore, the vertical sliding connection of sample frame access & exit department has inside and outside exchange door, be equipped with the unit that opens the door that drives inside and outside exchange door and open or close on the box.

Has the advantages that: in the scheme, the inner and outer exchange doors are closed when the sample rack is not required to be taken and placed, so that the interior of the box body is more sanitary, and meanwhile, the heat preservation of the box body is facilitated.

Furthermore, an artificial sampling hole is formed in one side of the box body, and an artificial sampling door is hinged to the artificial sampling hole.

Has the beneficial effects that: so set up, be convenient for the manual work take out the sample frame from artifical sample hole department, sample on taking out the sample frame like this is more quick when using.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

fig. 1 is a partial longitudinal sectional view of a large-capacity refrigerating storage apparatus according to an embodiment 1 of the present invention;

fig. 2 is a plan view of an embodiment 1 of the large-capacity refrigerating storage apparatus of the present invention;

fig. 3 is a partial longitudinal sectional view of an internal and external transport interaction unit of a sample rack according to embodiment 1 of the present invention;

fig. 4 is a partial longitudinal sectional view of embodiment 2 of the large-capacity cold storage device of the present invention.

Fig. 5 is a partial longitudinal sectional view of a large-capacity cold storage device according to embodiment 3 of the present invention.

Reference numbers and corresponding part names in the figures:

the device comprises a box body 1, an internal support 2, a power transmission mechanism 5, a cold dispersing pipeline 6, a refrigeration module 7, a refrigeration box 70, an internal and external exchange door 8, a sample rack access 80, a sample rack 9, a sample rack internal and external conveying interaction unit 10, a conveyor belt 100, a support block 101, a lead screw motor 102, a lead screw 103, a slide block 104, a sample rack conveying platform 11, a sample rack conveying guide rail 12, a sample rack cache table 13, an artificial sampling door 14, a sample conveying track 15, a discarding pipeline 16, a discarding garbage can 17, a controller 18, a track sample interaction manipulator 19, a temporary transfer sample rack 20, a sample rack storage position 21, a support 22 and a support block 23.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more clearly understood, the following description is given for further details of the present invention with reference to the accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention, and are not intended to limit the present invention.

As shown in fig. 1 to 3, the present embodiment 1 provides a large-capacity refrigeration storage device including:

the box 1 is equipped with three-dimensional rotation mechanism and a plurality of sample frame in the box 1 and stores up position 21, and three-dimensional rotation mechanism can store up position 21 along a plurality of sample frames of three-dimensional annular route reciprocating transport, and sample frame stores up and all has placed sample frame 9 on the position 21, and sample frame stores up position 21 in this embodiment and is the L shape, is equipped with a plurality of sample holes that are used for depositing the sample on the sample frame 9, and the sample is put into sample frame 9's downthehole completion of sample and is stored.

Three-dimensional rotation mechanism includes closed loop chain, two sprockets and power transmission mechanism 5 in this embodiment, two sprockets are located the inboard of closed loop chain respectively and with closed loop chain intermeshing, 5 drive sprocket rotations of power transmission mechanism, a plurality of sample frame store up position 21 interval distribution in proper order on closed loop chain, power transmission mechanism 5 includes driving motor and speed reducer in this embodiment, driving motor drives the speed reducer and rotates, speed reducer drive sprocket rotates to drive the chain and rotate and drive sample frame 9 and remove.

In this embodiment, each sample rack storage location 21 is provided with a plurality of sample racks 9 side by side, as shown in fig. 1, the sample rack storage locations 21 in this embodiment are provided with fourteen sample racks, and as shown in fig. 2, each sample rack storage location 21 is provided with eleven sample racks 9 side by side. In this embodiment, a sample rack entrance 80 is provided at the right side of the box body 1 and at the middle of the box body, in this embodiment, an inner and outer exchange door 8 is connected to the sample exit in a vertical sliding manner, a door opening unit for driving the inner and outer exchange door 8 to open or close is provided on the box body 1, the door opening unit can adopt a gear and rack mechanism in the prior art, a rack is connected to the inner and outer exchange door 8, a motor drives the gear to rotate, and the gear is engaged with the rack, thereby driving the rack to vertically reciprocate, and further playing a role in driving the inner and outer exchange door 8 to open or close.

The sample rack cache table 13 is provided with a cache station for placing the sample rack 9, and as shown in fig. 2, the sample rack cache table 13 is provided with four cache stations, which are located on the same straight line, and the four cache stations are labeled in sequence in this embodiment.

The sample conveying unit comprises a sample conveying rail 15 for conveying samples, the samples are conveyed on the sample conveying rail 15, the sample conveying rail 15 is parallel to the sample rack buffer storage table 13, and a bracket 22 for supporting the sample conveying rail 15 is arranged at the bottom of the sample conveying rail 15;

the sample interaction manipulator is used for transferring samples between the sample conveying track 15 and the sample rack 9 on the cache station, namely, the samples on the sample conveying track 15 are clamped on the sample rack 9 on the cache station, the sample interaction manipulator in the embodiment can move freely in three directions of an X axis, a Y axis and a Z axis, so that the samples on the sample conveying track 15 can be conveniently grabbed on the sample rack 9 of the sample rack cache table 13, and the sample interaction manipulator adopts a portal manipulator in the prior art to realize sample grabbing operation;

the sample rack internal and external conveying interaction unit 10 is arranged between the box body 1 and the sample rack cache table 13, the sample rack internal and external conveying interaction unit 10 comprises a conveyor belt 100 and a power part for driving the conveyor belt 100 to reciprocate between the box body 1 and the sample rack cache table 13, and the conveyor belt 100 can convey sample racks 9 in the box body 1 and the sample racks 9 on the sample rack cache table 13 mutually.

As shown in fig. 3, the power unit in this embodiment includes a sample rack transport platform 11, a support block 101, and a power unit for driving the support block 101 to horizontally reciprocate; supporting shoe 101 and sample frame conveying platform 11 horizontal sliding connection are provided with the drive division that drive conveyer belt 100 removed and the lift portion that drive conveyer belt 100 goes up and down on the supporting shoe 101, and this drive division can adopt the motor drive belt pulley to rotate for prior art, and belt pulley drive conveyer belt 100 moves. The lifting part in this embodiment can adopt mechanisms such as cylinders and electric telescopic rods, and the lifting part drives the conveyor belt 100 to move up and down, so that the sample rack 9 is pushed up and pressed on the conveyor belt 100, and the sample rack is conveyed smoothly.

The upper surface of the conveyor belt 100 is flush with the upper surface of the sample rack cache table 13, the power unit in the embodiment is a screw pair structure, the screw pair structure is located on the sample rack conveying platform 11, and the conveyor belt 100 is installed on the supporting block 101;

the screw pair structure includes lead screw 103 and motor, sample frame conveying platform 11's outside fixedly connected with props up piece 23, the motor is installed on prop up piece 23, the one end of lead screw 103 and the output shaft of this motor, the other end of lead screw 103 passes through bearing normal running fit with sample frame conveying platform 11's lateral wall, motor drive lead screw 103 rotates, supporting shoe 101 and lead screw 103 screw-thread fit, bottom fixedly connected with slider 104 at supporting shoe 101 in this embodiment, slider 104 and lead screw 103 threaded connection, and slider 104 and sample frame conveying platform 11 sliding fit, will drive slider 104 and remove along lead screw 103 when motor drive lead screw 103 pivoted in-process, thereby it removes to drive the belt on the supporting shoe 101 about.

Referring to fig. 2, a sample rack transport rail 12 is disposed at the bottom of the sample rack transport platform 11 in this embodiment, and the sample rack transport rail 12 and the sample rack buffer stage 13 are disposed in parallel.

As shown in figure 1, the left side of the box body 1 is provided with an artificial sampling hole in the middle, the artificial sampling hole is hinged with an artificial sampling door 14, and the sample rack 9 is conveniently and manually taken out from the artificial sampling hole by opening the artificial sampling door 14, so that the sample on the sample rack 9 is taken out more quickly when the sample is used.

The specific implementation process is as follows: in this embodiment, a controller 18 is further installed on the upper portion of the box 1, and this embodiment cooperates with an information query system in the prior art to perform polling by a database query technology, query for a vacant sample rack 9 in the box 1, control the opening of the inner and outer exchange doors 8 by the controller 18, and drive the supporting block 101 to slide toward the box 1, so as to drive the conveyor belt 100 to be located at the bottom of an empty sample rack 9 facing the inner and outer exchange doors 8 to contact with the bottom of the sample rack 9, drive the conveyor belt 100 to move upward to push up the sample rack 9, so as to press the sample rack 9 on the conveyor belt 100, then drive the conveyor belt 100 to move, so as to drive the conveyor belt 100 to transfer the empty sample rack 9 onto the conveyor belt 100, when the sample rack 9 is located on the conveyor belt 100, the conveyor belt 100 stops moving, then drive the supporting block 101 to drive the sample rack 9 on the conveyor belt 100 toward the sample rack buffer stage 13 to the left side of the sample rack buffer stage 13, and then drive the conveyor belt 100 to move, so as to transfer the sample rack 9 thereon to the buffer stage for loading.

The sample interactive manipulator grabs the samples on the sample conveying track 15 onto the empty sample racks 9 on the buffer storage station, after loading is completed, the loaded sample racks 9 are moved towards the direction of the box body 1 through the movement of the conveying belt 100 and the supporting block 101, the loaded sample racks 9 are conveyed into the sample rack storage position 21 after the internal and external exchange door 8 is opened, then other empty sample racks 9 on the sample rack storage position 21 are taken out again and conveyed to the first buffer storage station of the sample rack 9 buffer storage position, and at the moment, the internal and external exchange door 8 is closed.

During the exchange of the empty sample rack 9 and the loaded sample rack 9, the subsequent samples will be placed on the second, third or fourth buffer station of the sample rack buffer station 13, and the process operation will not be affected.

In this embodiment, for an extraction instruction issued by the information system, the information inquiry system in the controller 18 inquires a specific position, then the closed-loop chain rotates until the required number of layers of the sample rack 9 is aligned with the internal and external switching doors 8, after the internal and external switching doors 8 are opened, the sample rack 9 is dragged out by the sample rack internal and external transport interaction unit 10, the sample is transported to the third position of the sample rack cache table 13 through the sample rack transport platform 11 and the sample rack transport guide rail 12, and the sample is put into the sample transport track 15 by the track sample interaction manipulator 19 and is sent to a specified position; after the extraction is completed, the sample rack inside-outside transport interaction unit 10 will reverse the direction to place the sample rack 9 back into the sample rack storage location 21 in the box 1.

Embodiment 2 provides a large-capacity refrigerating storage apparatus, which is different from embodiment 1 in that: as shown in fig. 4, a large capacity cold-stored storage device still includes the refrigeration unit in this embodiment, and the refrigeration unit includes refrigeration case 70 and scattered cold pipeline 6, and the one end of scattered cold pipeline 6 communicates with the air outlet of refrigeration case 70, and the other end of scattered cold pipeline 6 is located box 1, has seted up a plurality of thermovents on the heat dissipation pipeline that is located box 1 in this embodiment, is equipped with refrigeration module 7 in the refrigeration case 70. After the refrigeration module 7 refrigerates, cold air is transmitted to the interior of the box body 1 through the cold dissipation pipeline 6, and therefore the cold storage effect on the sample is achieved.

Still be equipped with the return air duct between box 1 and the refrigeration module 7 in this embodiment, install the fan on the return air duct, can take out refrigeration case 70 with the air conditioning of incasement 1 through the fan, make refrigeration module 7 can circulate the refrigeration with the gas of taking out refrigeration case 70. After the return air pipeline is added in the embodiment, an internal and external circulation refrigeration effect is formed with the cold dissipation pipeline 6, and the refrigeration speed is effectively accelerated. Embodiment 3 provides a large-capacity refrigerating storage apparatus, which is different from embodiment 1 in that: as shown in fig. 5, the sample rack buffer table 13 is provided with a discarding pipeline 16, two ends of the discarding pipeline 16 are respectively located above and below the sample buffer table, the top end of the discarding pipeline 16 is funnel-shaped, so that samples to be discarded can be conveniently put in, and a discarding garbage can 17 is arranged below the discarding pipeline 16. For the samples needing to be discarded, the samples needing to be discarded are grabbed by the sample interaction manipulator to enter the discarding garbage bin 17 through the discarding channel to be discarded.

The above-mentioned embodiments further describe the objects, technical solutions and advantages of the present invention in detail, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A high capacity refrigerated storage unit comprising:

the sample rack storage positions are arranged on the sample rack storage positions, and a sample rack inlet and a sample rack outlet are formed in one side of the box body;

the sample rack caching platform is provided with a caching station for placing the sample rack;

a sample conveying unit including a sample conveying rail conveying a sample;

the sample interaction manipulator is used for transferring samples between the sample conveying track and the sample rack on the caching station;

the sample rack internal and external conveying interaction unit is arranged between the box body and the sample rack cache table, and comprises a conveying belt and a power part for driving the conveying belt to reciprocate between the box body and the sample rack cache table, and the conveying belt can convey the sample rack in the box body and the sample rack on the sample rack cache table mutually.

2. A high capacity refrigerated storage unit as claimed in claim 1 wherein the power means comprises a sample rack transport platform, support blocks and a power unit for driving the support blocks to reciprocate horizontally; the supporting block with sample frame conveying platform horizontal sliding connection, be provided with the drive division that the drive conveyer belt removed and the lift portion that the drive conveyer belt goes up and down on the supporting block, the upper surface of conveyer belt with the upper surface parallel and level of sample frame buffer platform.

3. A high capacity refrigerated storage unit as claimed in claim 2 wherein the power unit is a screw assembly located on the sample rack transport platform and the conveyor belt is mounted on the support block;

the screw pair structure comprises a screw and a motor, one end of the screw is connected with the motor, the other end of the screw is in running fit with the side wall of the sample frame conveying platform, the motor drives the screw to rotate, and the supporting block is in threaded fit with the screw.

4. A large capacity cold storage device as claimed in claim 2, wherein said sample rack buffer stage is provided with a plurality of buffer stations, said plurality of buffer stations are located on the same line, said sample rack transportation platform is provided with sample rack transportation rail at the bottom, said sample rack transportation rail and said sample rack buffer stage are parallel to each other.

5. A large capacity cold storage device as claimed in claim 1, wherein the sample rack buffer stage is installed with a discarding pipe, two ends of the discarding pipe are respectively located above and below the sample buffer stage, and a discarding garbage can is located below the discarding pipe.

6. A large capacity cold storage device as claimed in claim 1, further comprising a refrigeration unit, wherein said refrigeration unit comprises a refrigeration box and a cold dissipation pipeline, one end of said cold dissipation pipeline is connected to the air outlet of the refrigeration box, the other end of said cold dissipation pipeline is located in said box, a refrigeration module is disposed in said refrigeration box, an air return pipeline is disposed between said box and said refrigeration module, and said refrigeration module can circulate and refrigerate the air entering the refrigeration box from the box.

7. The high capacity refrigerated storage unit of claim 1 wherein the swing mechanism includes a closed loop chain, two sprockets and a power transmission mechanism, the two sprockets are respectively located inside the closed loop chain and are engaged with the closed loop chain, the power transmission mechanism drives the sprockets to rotate, and the plurality of sample rack storage locations are sequentially spaced on the closed loop chain.

8. A high volume refrigerated storage unit as claimed in claim 4 wherein a plurality of sample racks are located side by side in each sample rack storage location.

9. A large capacity refrigerating storage device as claimed in claim 1, wherein the sample rack is provided with an inner and outer exchange door slidably connected vertically to the entrance and exit of the sample rack, and the box body is provided with a door opening unit for driving the inner and outer exchange door to open or close.

10. A large capacity cold storage device as claimed in claim 1, wherein a manual sampling hole is opened on one side of the box body, and a manual sampling door is hinged to the manual sampling hole.

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