CN112093219A

CN112093219A - Biological product storage device

Info

Publication number: CN112093219A
Application number: CN202010965479.8A
Authority: CN
Inventors: 罗秋香
Original assignee: Guangzhou Renmai Biotechnology Co ltd
Current assignee: Guangzhou Renmai Biotechnology Co ltd
Priority date: 2020-09-15
Filing date: 2020-09-15
Publication date: 2020-12-18

Abstract

The invention discloses biological product storage equipment which comprises a main body, wherein a freezer with biological products vertically distributed in an array is arranged in the main body, a pushing cavity communicated with the freezer through a limiting pushing groove is formed in the lower side of the freezer, a pushing assembly is arranged in the pushing cavity, the left side of the pushing cavity is communicated with a sliding cavity, the right side of the pushing cavity is communicated with a conveying cavity, the left side and the right side of the freezer are provided with discharge ports communicated with the sliding cavity and the conveying cavity, a conveying assembly is arranged in the conveying cavity, when the biological products need to be taken, the required biological products are pushed out of a conveying belt on the outer side of a freezer body, the conveying belt conveys the biological products to an overturning disc, the disc drives the biological products to overturn for half of the circumference, and an upper side scanner scans and scans information of the biological product.

Description

Biological product storage device

Technical Field

The invention relates to the technical field of biological product storage, in particular to biological product storage equipment.

Background

The biological product is prepared with microbe, cell and other biological material obtained through gene engineering, cell engineering, protein engineering, fermentation engineering and other biological technology, and is used in preventing, treating and diagnosing human diseases. Biological products are required to be stored in a closed box body at low temperature, but workers usually need to open the box body when taking the biological products, and cold air in the box body is easy to lose during the period, so that the storage of the biological products is influenced.

Disclosure of Invention

In view of the above technical shortcomings, the present invention provides a biological product storage device, which can overcome the above shortcomings.

The invention relates to biological product storage equipment, which comprises a main body, wherein a refrigerator cabinet for biological products which are vertically distributed in an array manner is arranged in the main body, a pushing cavity communicated with the refrigerator cabinet through a limiting pushing groove is arranged at the lower side of the refrigerator cabinet, a pushing assembly is arranged in the pushing cavity, a sliding cavity is communicated with the left side of the pushing cavity, a conveying cavity is communicated with the right side of the pushing cavity, discharge holes communicated with the sliding cavity and the conveying cavity are formed in the left side and the right side of the refrigerator cabinet, a conveying assembly is arranged in the conveying cavity, a scanning assembly is communicated with the rear side of the conveying cavity, a scanning assembly is arranged in the scanning assembly, the pushing assembly comprises a pushing rotating shaft which is rotatably arranged on the rear end wall of the pushing cavity, an active pushing rod containing a first limiting block is fixedly arranged on the pushing rotating shaft, a first limiting groove, a second, The driven catch bar of second spacing groove, first stopper with second spacing groove sliding fit, the endwall slides under the slip chamber be equipped with first spacing groove passes through second stopper sliding connection's promotion piece, promote piece upside fixed mounting with spacing promotion piece of spacing promotion groove sliding fit, spacing promotion piece upside fixed mounting with discharge gate sliding fit's inclined plane is pushed open, conveying chamber right side is equipped with the transmission chamber, transmission chamber left side is rotated and is installed and is extended left to promote the promotion transmission shaft in chamber, promote the intracavity be equipped with promote the axis of rotation promote transmission shaft fixed mounting and intermeshing's bevel gear.

Preferably, the conveying assembly includes conveying chamber right-hand member wall front and back symmetry is rotated and is installed the transmission axle, the conveying intracavity be equipped with conveying axle fixed mounting just passes through the transfer gear that the conveyer belt is connected, the rear side conveying axle extends to right the transmission chamber, be equipped with in the transmission chamber with the rear side conveying axle promote transmission shaft fixed mounting and pass through the first belt pulley that the belt is connected, still be equipped with drive assembly in the transmission chamber.

Preferably, drive assembly include with transmission chamber right-hand member wall fixed mounting just is located the motor of conveying axle rear side, motor left side power is connected with and extends to left the drive shaft of scanning subassembly, be equipped with in the transmission chamber with drive shaft, rear side conveying axle fixed mounting just passes through the second belt pulley that the belt is connected.

Preferably, the scanning subassembly include with the scanning axis of rotation of scanning subassembly left end wall rotation installation, the bilateral symmetry is equipped with the rotation section of thick bamboo of draw-in groove around fixed mounting in the scanning axis of rotation, the draw-in groove is close to scanning axis of rotation side and with external communicating first sliding tray, first sliding tray right side intercommunication is equipped with the communicating second sliding tray with external, slide in the first sliding tray be equipped with first sliding tray passes through the first voussoir of voussoir spring coupling, slide in the second sliding tray be equipped with extend right and with first voussoir scarf sliding fit's second voussoir, second voussoir right side fixed mounting has and supports the piece, scanning subassembly upper end wall is equipped with the scanner.

Preferably, the scanning subassembly still includes the drive shaft left side is equipped with first spline sleeve, scanning axis of rotation right side has two side splines through second spline muffjoint, two side spline right sides can with first spline muffjoint, two side spline left sides with second spline sleeve left end wall passes through spline spring coupling, be connected with through the bearing on two side splines with the second that second voussoir right side offseted supports the piece, scanning subassembly rear end wall fixed mounting have can with support the third that the piece offseted and support the piece and support, scanning subassembly rear end wall intercommunication is equipped with the communicating export in the external world, export bilateral symmetry about be equipped with export left end wall rotate the installation and with export right end wall passes through the ejection of compact axis of rotation of torsional spring coupling, fixed mounting has the door plant in the ejection of compact axis of rotation.

The beneficial effects are that: the device simple structure, convenient operation, the device is when the biological product of needs are taken, will on the conveyer belt in the biological product release refrigerator outside of needs, the conveyer belt conveys biological product to the upset disc, and the disc drives biological product upset half week, and reverse side information is given birth to the biological product shell of upside scanner scanning, and what guarantee to take out does not need the manual work to take for correct product.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic diagram of the structure A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of the structure B-B in FIG. 2 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure at C in FIG. 2 according to an embodiment of the present invention;

fig. 5 is an enlarged schematic view of the structure at D in fig. 3 according to the embodiment of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The biological product storage equipment of the device comprises a main body 10, wherein an ice chest 36 of biological products 34 distributed in a vertical array manner is arranged in the main body 10, a pushing cavity 35 communicated with the ice chest 36 through a limiting pushing groove 33 is arranged on the lower side of the ice chest 36, a pushing assembly is arranged in the pushing cavity 35, a sliding cavity 11 is communicated with the left side of the pushing cavity 35, a conveying cavity 31 is communicated with the right side of the pushing cavity 35, discharge holes 32 communicated with the sliding cavity 11 and the conveying cavity 31 are arranged on the left side and the right side of the ice chest 36, a conveying assembly is arranged in the conveying cavity 31, a scanning assembly 44 is communicated with the rear side of the conveying cavity 31, a scanning assembly is arranged in the scanning assembly 44, the pushing assembly comprises a pushing rotating shaft 23 rotatably arranged on the rear end wall of the pushing cavity 35, an active pushing rod 22 containing a first limiting block 20 is fixedly arranged on the pushing, a driven pushing rod 21 which is hinged to the front end wall of the pushing cavity 35 and is arranged on the lower side of the pushing rotating shaft 23 and comprises a first limiting groove 17 and a second limiting groove 19, the first limiting block 20 is in sliding fit with the second limiting groove 19, a pushing block 15 which is in sliding connection with the first limiting groove 17 through a second limiting block 16 is arranged on the lower end wall of the sliding cavity 11 in a sliding manner, a limiting pushing block 14 which is in sliding fit with the limiting pushing groove 33 is fixedly arranged on the upper side of the pushing block 15, an inclined push 13 which is in sliding fit with the discharging hole 32 is fixedly arranged on the upper side of the limiting pushing block 14, a transmission cavity 27 is arranged on the right side of the transmission cavity 31, a pushing transmission shaft 26 which extends to the pushing cavity 35 leftwards is rotatably arranged on the left side of the transmission cavity 27, and a bevel gear 24 which is fixedly arranged on the pushing rotating shaft 23 and the pushing transmission, the driving pushing rod 22 is driven to rotate by the pushing rotating shaft 23, the first limiting block 20 slides in the second limiting groove 19 so as to drive the driven pushing rod 21 to swing left and right around a hinge point of the driven pushing rod 21 and the pushing cavity 35, the second limiting block 16 slides in the first limiting groove 17, the driven pushing rod 21 drives the pushing block 15, the limiting pushing block 14 and the inclined plane pushing block 13 to slide right so as to push the lowermost biological product 34 to slide right into the conveying cavity 31 when swinging right, the driven pushing rod 21 drives the pushing block 15, the limiting pushing block 14 and the inclined plane pushing block 13 to slide left for resetting when swinging left, and meanwhile the inclined plane on the inclined plane pushing block 13 prevents the upper biological product 34 from being crushed due to overlarge vibration when sliding downwards.

Beneficially, the conveying assembly includes a conveying shaft 29 symmetrically installed on the front and rear of the right end wall of the conveying cavity 31 in a rotating manner, a conveying wheel 25 fixedly installed on the conveying shaft 29 and connected through a conveying belt 37 is arranged in the conveying cavity 31, the conveying shaft 29 on the rear side extends to the right of the conveying cavity 27, a first belt pulley 28 fixedly installed on the conveying shaft 29 and the pushing transmission shaft 26 on the rear side and connected through a belt is arranged in the conveying cavity 27, a driving assembly is further arranged in the conveying cavity 27, the conveying wheel 25 rotates to drive the biological product 34 to be conveyed backwards after the biological product 34 is pushed to the upper side of the conveying belt 37 by the inclined plane push-away 13, and meanwhile, the inclined plane push-away 13 slides leftwards to reset.

Advantageously, the driving assembly comprises a motor 46 fixedly mounted to the right end wall of the transmission chamber 27 and located at the rear side of the transmission shaft 29, a driving shaft 47 extending leftwards to the scanning assembly 44 is connected to the left side of the motor 46 in a power connection manner, a second belt pulley 30 fixedly mounted to the driving shaft 47 and the transmission shaft 29 at the rear side and connected to the driving shaft 47 through a belt is disposed in the transmission chamber 27, and the motor 46 rotates the driving shaft 47, thereby rotating the second belt pulley 30, thereby rotating the transmission shaft 29, thereby rotating the first belt pulley 28, thereby rotating the pushing transmission shaft 26.

Advantageously, the scanning assembly includes a scanning rotation shaft 41 rotatably mounted on the left end wall of the scanning assembly 44, a rotation cylinder 43 having a slot 38 on both front and rear sides thereof is fixedly mounted on the scanning rotation shaft 41, the slot 38 is adjacent to the scanning rotation shaft 41 and communicates with the outside, a first sliding groove 56 is provided in the right side of the first sliding groove 56, a second sliding groove 57 is provided in the right side of the first sliding groove 56 and communicates with the outside, a first wedge 55 is slidably provided in the first sliding groove 56 and connected to the first sliding groove 56 through a wedge spring 54, a second wedge 58 extending rightward and slidably engaged with the wedge surface of the first wedge 55 is slidably provided in the second sliding groove 57, a stop block 59 is fixedly mounted on the right side of the second wedge 58, the upper end wall of the scanning assembly 44 is provided with a scanner 45, when the conveyor belt 37 conveys the biological product 34 to the scanning assembly 44, biological product 34 slides forward first wedge 55 into forward first slide channel 56, and forward second wedge 58 slides to the right as forward wedge spring 54 expands.

Beneficially, the scanning assembly further includes a first spline sleeve 48 disposed on the left side of the driving shaft 47, a double-sided spline 61 connected to the right side of the scanning rotating shaft 41 through a second spline sleeve 12, the right side of the double-sided spline 61 being capable of being connected to the first spline sleeve 48, the left side of the double-sided spline 61 being connected to the left end wall of the second spline sleeve 12 through a spline spring 63, a second abutting block 60 abutting against the right side of the second wedge 58 being connected to the double-sided spline 61 through a bearing, a third abutting block 49 capable of abutting against the abutting block 59 being fixedly mounted on the rear end wall of the scanning assembly 44, an outlet 50 communicating with the outside being disposed on the rear end wall of the scanning assembly 44, a discharging rotating shaft 53 rotatably mounted on the left end wall of the outlet 50 and connected to the right end wall of the outlet 50 through a torsion spring 52 being symmetrically disposed on the upper and lower sides of the outlet 50, a door plate 51 being fixedly mounted, when the second wedge block 58 on the front side slides rightwards, the second abutting block 60 is pushed to slide rightwards, so that the double-sided spline 61 is driven to slide rightwards to be matched with the first spline sleeve 48, the spline spring 63 is stretched, the driving shaft 47 drives the double-sided spline 61 to rotate, so that the scanning rotating shaft 41 is driven to rotate, so that the rotating cylinder 43 is driven to rotate, after the rotating cylinder 43 drives the biological product 34 to rotate for a half circle, the abutting block 59 on the front side rotates to slide leftwards when the rear side is in sliding fit with the third abutting block 49, the double-sided spline 61 acts on the spline spring 63 to slide leftwards to be separated from the first spline sleeve 48, the rotating cylinder 43 stops rotating, meanwhile, the second wedge block 58 on the rear side slides leftwards, so that the first wedge block 55 on the rear side is driven to slide backwards to push the biological product 34 backwards, and the door panel 51 rotates around the discharging rotating shaft 53, the torsion spring 52 is twisted, and the door panel 51 is reset under the action of the torsion spring 52 after the worker takes out the biological product 34.

In an initial state, the torsion spring 52 is in a normal torsion state, the door plate 51 is in a closed state, the wedge spring 54 is in a normal stretching state, the first wedge 55 is located on the outer side of the first sliding groove 56, the second wedge 58, the abutting block 59, the second abutting block 60 and the double-side spline 61 are located on the leftmost side, the spline spring 63 is in a normal stretching state, the double-side spline 61 is not connected with the first spline sleeve 48, and the pushing block 15, the limiting pushing block 14 and the inclined plane pushing block 13 are located on the leftmost side.

When the device starts to work, the motor 46 is started, so as to drive the driving shaft 47 to rotate, so as to drive the second belt pulley 30 to rotate, so as to drive the transmission shaft 29, so as to drive the first belt pulley 28 to rotate, so as to drive the pushing transmission shaft 26 to rotate, so as to drive the bevel gear 24 to rotate, so as to drive the pushing rotation shaft 23 to rotate, so as to drive the driving pushing rod 22 to rotate, the first limiting block 20 slides in the second limiting groove 19, so as to drive the driven pushing rod 21 to swing left and right around the hinge point of the driven pushing rod 21 and the pushing cavity 35, the second limiting block 16 slides in the first limiting groove 17, so as to drive the pushing block 15, the limiting pushing block 14 and the inclined plane pushing block 13 to slide right to push the lowest biological product 34 to slide right to the transmission belt 37 when the driven pushing rod 21 swings left, so as to drive the pushing block 15, meanwhile, the inclined plane pushes away 13 the upper inclined plane to prevent the upper biological product 34 from being broken due to excessive vibration when sliding downwards, meanwhile, the transmission shaft 29 drives the transmission wheel 25 to rotate to transmit the biological product 34 on the transmission belt 37 backwards, when the transmission belt 37 transmits the biological product 34 to the scanning assembly 44, the biological product 34 enters the front clamping groove 38 to drive the front first wedge 55 to slide towards the front first sliding groove 56, the front wedge spring 54 is stretched to drive the front second wedge 58 to slide towards the right, so as to push the second abutting block 60 to slide towards the right, so as to drive the double-sided splines 61 to slide towards the right to be matched with the first spline sleeve 48, the spline spring 63 is stretched, the driving shaft 47 drives the double-sided splines 61 to rotate, so as to drive the scanning rotating shaft 41 to rotate, so as to drive the rotating cylinder 43 to rotate, after the rotating cylinder 43 drives the biological product 34 to rotate for half a circle, the scanner 45 scans the information of, the front side abutting block 59 slides leftwards when rotating to the rear side to be in sliding fit with the third abutting block 49, the double-side spline 61 slides leftwards under the action of the spline spring 63 to be separated from the first spline sleeve 48, the rotating cylinder 43 stops rotating, meanwhile, the rear side second wedge block 58 slides leftwards, so that the rear side first wedge block 55 is driven to slide backwards to push out the biological product 34 backwards, the door plate 51 rotates around the discharging rotating shaft 53, the torsion spring 52 twists, and the door plate 51 is reset under the action of the torsion spring 52 after a worker takes out the biological product 34.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. A biological product storage device comprising a body, characterized in that: the refrigerator is characterized in that a refrigerator of biological products which are distributed in a vertical array manner is arranged in the main body, a pushing cavity communicated with the refrigerator through a limiting pushing groove is arranged at the lower side of the refrigerator, a pushing assembly is arranged in the pushing cavity, a sliding cavity is communicated with the left side of the pushing cavity, a conveying cavity is communicated with the right side of the pushing cavity, discharge ports communicated with the sliding cavity and the conveying cavity are arranged at the left side and the right side of the refrigerator, a conveying assembly is arranged in the conveying cavity, a scanning assembly is arranged in the scanning assembly and comprises a pushing rotating shaft which is rotatably installed with the rear end wall of the pushing cavity, a driving pushing rod comprising a first limiting block is fixedly installed on the pushing rotating shaft, a driven pushing rod which is hinged with the front end wall of the pushing cavity and is provided with the lower side of the pushing rotating shaft and comprises a first limiting groove, the first limiting block is in sliding fit with the second limiting groove, the end wall of the sliding cavity is slidably provided with a pushing block which is connected with the first limiting groove through the second limiting block in a sliding mode, the upper side of the pushing block is fixedly provided with a limiting pushing block in sliding fit with the limiting pushing groove, the upper side of the limiting pushing block is fixedly provided with an inclined plane which is in sliding fit with the discharge port and pushes away the inclined plane, the right side of the conveying cavity is provided with a transmission cavity, the left side of the transmission cavity is rotatably provided with a pushing transmission shaft which extends leftwards to the pushing cavity, and the pushing cavity is internally provided with bevel gears which are fixedly provided with the pushing rotation shaft and are meshed with the pushing transmission.

2. The bioproduct storage apparatus of claim 1, wherein: the conveying assembly comprises a conveying shaft which is symmetrically and rotatably installed around the right end wall of the conveying cavity, a conveying wheel which is fixedly installed on the conveying shaft and connected with the conveying belt is arranged in the conveying cavity, the conveying shaft extends rightwards to the transmission cavity, a first belt pulley which is fixedly installed on the transmission shaft and connected with the transmission shaft through a belt is arranged in the transmission cavity, and a driving assembly is further arranged in the transmission cavity.

3. The bioproduct storage apparatus of claim 2, wherein: drive assembly include with transmission chamber right-hand member wall fixed mounting just is located the motor of conveying axle rear side, motor left side power is connected with and extends to left the drive shaft of scanning subassembly, be equipped with in the transmission chamber with drive shaft, rear side conveying axle fixed mounting just passes through the second belt pulley that the belt is connected.

4. The bioproduct storage apparatus of claim 3, wherein: the scanning subassembly include with the scanning axis of rotation of scanning subassembly left end wall rotation installation, the bilateral symmetry is equipped with the rotation section of thick bamboo of draw-in groove around fixed mounting in the scanning axis of rotation, the draw-in groove is close to scanning axis of rotation side and with external communicating first sliding tray, first sliding tray right side intercommunication is equipped with the communicating second sliding tray with external, slide in the first sliding tray be equipped with first sliding tray passes through the first voussoir of voussoir spring coupling, slide in the second sliding tray be equipped with extend right and with first voussoir scarf sliding fit's second voussoir, second voussoir right side fixed mounting has the piece of support, scanning subassembly upper end wall is equipped with the scanner.

5. The bioproduct storage apparatus of claim 4, wherein: the scanning subassembly still includes the drive shaft left side is equipped with first spline sleeve, scanning axis of rotation right side has two side splines through second spline muffjoint, two side spline right sides can with first spline muffjoint, two side spline left sides with second spline sleeve left end wall passes through spline spring coupling, be connected with through the bearing on two side splines with the second that second voussoir right side offseted supports the piece, scanning subassembly rear end wall fixed mounting have can with the third that supports the piece and offset supports the piece, scanning subassembly rear end wall intercommunication is equipped with the communicating export in the external world, export bilateral symmetry be equipped with export left end wall rotate the installation and with export right end wall passes through torsional spring connection's ejection of compact axis of rotation, fixed mounting has the door plant in the ejection of compact axis of rotation.