CN215905839U - Serum separation glues high pressure injecting glue device - Google Patents

Abstract

The utility model relates to a serum draws the equipment field, specifically disclose a serum separation glues high pressure injecting glue device, it includes the workstation and installs the injecting glue mechanism on the workstation, be equipped with multistation test tube conveying mechanism on the workstation, multistation test tube conveying mechanism is located the below of injecting glue mechanism, multistation test tube conveying mechanism includes a plurality of conveyer belts of installing on the workstation, the top of every conveyer belt is equipped with the mechanism of ajusting injection test tube box, still be equipped with direction actuating mechanism on the workstation, direction actuating mechanism is suitable for control injecting glue mechanism and removes between each conveyer belt. This application has the effect that realizes putting forward fast and improve injecting glue efficiency of injection test tube box.

Description

Serum separation glues high pressure injecting glue device

Technical Field

The application relates to the technical field of serum extraction equipment, in particular to a high-pressure glue injection device for serum separation glue.

Background

The serum separation gel is a viscous fluid, the structure of the serum separation gel contains a large number of hydrogen bonds, a net-shaped structure is formed due to the association of the hydrogen bonds, the net-shaped structure is broken under the action of centrifugal force to be changed into a fluid with low viscosity, and the net-shaped structure is formed again after the centrifugal force disappears and is recovered into the fluid with high viscosity; utilize this kind of characteristic, serum separation glue by wide application in the clinical examination field, through the injecting glue machine with serum separation glue injection to the test tube that has the blood that solidifies, under the effect of centrifugal force, serum separation glue forms colloidal isolation layer and separates serum and blood clot between serum and blood clot to preserve serum under the original condition, conveniently carry out the receipts of serum.

The application number is CN 201822244875.2's chinese patent discloses a serum separation glues glue-injection machine, it includes the workstation and installs the injecting glue device on the workstation, the injecting glue device is including installing the mounting panel on the workstation, the confession jar of glue and the confession pump of setting in mounting panel one side, and the activity goes up and down to set up at mounting panel opposite side injecting glue board, injecting glue board is the cavity setting, supply to glue the jar and supply to glue pump and injecting glue board and pass through the delivery hose intercommunication, injecting glue board's bottom surface is provided with the injecting glue pole of a plurality of intercommunication injecting glue boards, set up two sets of location strips on the workstation of injecting glue board below, through placing test tube box and fix a position between two sets of location strips, make the injecting glue pole of installing in injecting glue board bottom surface follow the injecting glue board back that moves down, the injecting glue pole gets into the in the test tube and carries out the injecting glue.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when carrying out serum separation and gluing the injecting glue, what adopt is that simplex position injecting glue processing, when matching the relative position of test tube and injection pole moreover, the staff need carry out the position to each injection test tube box on the transport station and put right, and at this in-process, the injecting glue device is in idle state, and injecting glue efficiency is not high.

SUMMERY OF THE UTILITY MODEL

In order to realize the quick alignment of injection test tube box and improve injecting glue efficiency, this application provides a serum separation glues high pressure injecting glue device.

The application provides a serum separation glues high pressure injecting glue device adopts following technical scheme:

a serum separation glue high-pressure glue injection device comprises a workbench and a glue injection mechanism arranged on the workbench, wherein a multi-station test tube conveying mechanism is arranged on the workbench and positioned below the glue injection mechanism, the multi-station test tube conveying mechanism comprises a plurality of conveying belts arranged on the workbench, and a straightening mechanism for straightening an injection test tube box is arranged above each conveying belt;

the workbench is further provided with a guide driving mechanism, and the guide driving mechanism is suitable for controlling the glue injection mechanism to move among the conveyor belts.

By adopting the technical scheme, the plurality of conveyor belts simultaneously convey the injection test tube boxes, the positions of the injection test tube boxes on the conveyor belts are quickly aligned through the aligning mechanism, when the injection test tube boxes reach the designated positions, the conveyor belts stop rotating, the guiding driving mechanism controls the glue injection mechanism to reach the position right above the injection test tube boxes, and the glue injection mechanism performs accurate glue injection work; after the glue injection mechanism finishes glue injection work, the guide driving mechanism controls the glue injection mechanism to move fast to another conveying belt to perform glue injection work on the next injection test tube box, so that the injection test tube boxes are fast aligned, and glue injection efficiency is improved.

Optionally, the glue injection mechanism includes a glue supply tank, a glue supply pump, a glue injection plate, a glue injection rod, a conveying hose, an adjusting cylinder and a lifting cylinder, two ends of the glue supply pump are respectively connected with the glue supply tank and the glue injection plate through the conveying hose, and the lifting cylinder is connected with the glue injection plate;

the glue injection plate is arranged in a hollow mode, the glue injection rods are arranged in a plurality of numbers and are all installed at the bottom of the glue injection plate, the glue injection rods are all communicated with the inner cavity of the glue injection plate, and the glue injection rods are hollow and are open at two ends.

Through adopting above-mentioned technical scheme, during the accurate test tube that stretches into on the injection test tube box of lift cylinder drive notes gluey pole, supply gluey pump will supply the serum separation in the jar of glue to glue the inboard through carrying the hose, carry out the injecting glue work through a plurality of injecting glue poles under the injecting glue board, operate accurate high-efficient.

Optionally, the adjusting cylinder is fixedly arranged on the glue injection plate, one end of the adjusting cylinder is provided with a piston sleeve communicated with the inner cavity of the glue injection plate, and a piston rod of the adjusting cylinder is located in the piston sleeve and is in sealing fit with the inner wall of the piston sleeve.

Through adopting above-mentioned technical scheme, adjust the cylinder and stretch out the piston rod and make the inboard malleation that forms of injecting glue to make serum separation glue with higher speed pour into the test tube from the injecting glue pole into, after the injecting glue was accomplished, adjust the cylinder and return the piston rod and make the inboard negative pressure that forms of injecting glue, make the serum separation glue be difficult for dripping from the injecting glue pole and cause the waste, it is more smooth, high-efficient and not produce the serum separation glue waste to optimize injecting glue work.

Optionally, the guide driving mechanism includes a first mounting plate, a second mounting plate, a motor, a screw rod sleeve, a guide rod and a sliding plate, the first mounting plate and the second mounting plate are vertically arranged at intervals, the motor is located on the first mounting plate, the screw rod and the guide rod are arranged in parallel at intervals, two ends of the screw rod are respectively rotatably connected to the first mounting plate and the second mounting plate, one end of the screw rod penetrates through the first mounting plate and is coaxially and fixedly connected with an output end of the motor, the screw rod sleeve is arranged on the screw rod, and the screw rod sleeve is fixedly connected to the sliding plate;

the both ends of guide bar respectively the rigid coupling in first mounting panel with on the second mounting panel, the slide plate is kept away from the through-hole has been seted up to the one end of lead screw cover, the slide plate passes through-hole sliding connection in on the guide bar, lift cylinder rigid coupling in on the slide plate, the piston rod of lift cylinder with injecting glue looks rigid coupling.

Through adopting above-mentioned technical scheme, the lead screw uses with the lead screw cover cooperation, makes the slide plate drive the notes offset plate and carry out accurate removal along the length direction of lead screw, and the guide bar further improves the stability of sliding of slide plate to the strip of being convenient for slides and drives the quick accurate top of removing to the conveyer belt of notes offset plate, makes things convenient for the injecting glue pole to match the position of below injection test tube box, thereby the injecting glue pole of being convenient for carries out the injecting glue work.

Optionally, it is a plurality of the conveyer belt is located between first mounting panel and the second mounting panel, it is a plurality of the direction of transfer of conveyer belt all with the length direction of silk pole is perpendicular, be equipped with on the conveyer belt and be used for driving its pivoted rotating electrical machines.

Through adopting above-mentioned technical scheme, rotate the conveying that motor drive conveyer belt carried out injection test tube box along same direction of transfer to the staff of being convenient for is located one side of a plurality of conveyer belts and installs injection test tube box additional, and the opposite side that is located a plurality of conveyer belts collects injection test tube box, thereby alleviates staff's operation burden.

Optionally, the straightening mechanism includes two locating levers and two deflectors, and the locating lever sets firmly on the workstation and is located the both sides of conveyer belt, the deflector is installed on the locating lever, the deflector is located the top of conveyer belt, two the deflector all includes sharp portion and rake, forms the introducing port between two rakes, forms the straightening mouth between two sharp portions, and the bore of introducing port is greater than the bore of straightening mouth, and the introducing port is the loudspeaker form.

Through adopting above-mentioned technical scheme, during conveyer belt conveying injection test tube box, injection test tube box gets into the introducing port, and two slopes are tentatively put the injection test tube box and are led into the mouth of putting right, then two straight line portions are put right the injection test tube box and are located the transfer position on the conveyer belt, stop the conveyer belt this moment and make the accurate predetermined injecting glue position on the conveyer belt of being positioned of injection test tube box to make things convenient for the injecting glue pole to carry out the injecting glue work of test tube, improve injecting glue efficiency.

Optionally, a position sensor is arranged on the positioning rod and used for sensing the position of the injection test tube box on the conveying belt, a controller is arranged on the workbench, and the position sensor transmits signals to the rotating motor, the lifting cylinder, the motor and the adjusting cylinder through the controller.

Through adopting above-mentioned technical scheme, when the predetermined injecting glue position of prediction on the conveyer belt is conveyed to injection test tube box, the position inductor passes through controller transfer signal, make the rotation motor that rotates this conveyer belt stop, thereby make the accurate predetermined injecting glue position that stops on the conveyer belt of injection test tube box, controller control direction actuating mechanism drive injecting glue mechanism removes the top to this conveyer belt simultaneously, and control injecting glue mechanism carries out the injecting glue work to the injection test tube box of below, thereby realize the automation of injecting glue work.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the multiple conveyor belts simultaneously convey the injection test tube boxes, the positions of the injection test tube boxes on the conveyor belts are aligned through the aligning mechanism, when the injection test tube boxes reach the designated positions, the conveyor belts stop conveying to enable the injection test tube boxes to be accurately positioned on the conveyor belts, the guiding driving mechanism controls the glue injection mechanism to reach the position right above the injection test tube boxes at the moment, accurate glue injection work is conducted through the glue injection mechanism, after the glue injection mechanism finishes the glue injection work, the guiding driving mechanism controls the glue injection mechanism to rapidly move to another conveyor belt to conduct the glue injection work of the next injection test tube box, accurate positioning of the injection test tube boxes is achieved, and glue injection efficiency is improved;

2. the screw rod and the screw rod sleeve are matched for use, so that the sliding plate drives the glue injection plate to accurately move along the length direction of the screw rod, the guide rod further improves the sliding stability of the sliding plate, the glue injection plate can be conveniently and quickly and accurately moved above the conveying belt, the glue injection rod can be conveniently matched with the position of the injection test tube box, and the glue injection rod can conveniently perform glue injection work;

3. when conveyer belt conveying injection test tube box, injection test tube box gets into the introducing port, and two slopes are tentatively ajusted injection test tube box and leading-in mouth of ajusting, then two straight line portions are ajusted injection test tube box and are located the transfer position on the conveyer belt, stop the conveyer belt this moment and make injection test tube box accurate stop predetermined injecting glue position on the conveyer belt to make things convenient for the injecting glue pole to carry out the injecting glue work of test tube, improve injecting glue efficiency.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a glue injection plate in an embodiment of the present application;

FIG. 3 is a schematic diagram of the overall structure from another perspective of an embodiment of the present application;

fig. 4 is a schematic structural view of the straightening mechanism in the embodiment of the present application.

Reference numerals: 1. a work table; 2. a glue injection mechanism; 21. a glue supply tank; 22. a glue supply pump; 23. injecting a rubber plate; 231. a glue inlet through hole; 232. fixing a nut; 233. injecting glue through holes; 234. installing a sleeve; 235. a mounting frame; 24. injecting a glue rod; 25. a delivery hose; 26. an adjusting cylinder; 261. a piston sleeve; 27. a lifting cylinder; 3. a multi-station test tube conveying mechanism; 31. a conveyor belt; 311. rotating the motor; 4. a straightening mechanism; 41. positioning a rod; 411. positioning blocks; 42. a guide plate; 421. a straight portion; 422. an inclined portion; 423. an inlet port; 424. aligning the opening; 5. a guide driving mechanism; 51. a first mounting plate; 511. a support plate; 512. placing the plate on the frame; 513. placing the plate downwards; 52. a second mounting plate; 53. a motor; 54. a screw rod; 55. a screw rod sleeve; 56. a guide bar; 57. a slide plate; 571. a through hole; 58. a reinforcing plate; 6. a position sensor; 61. a metal inductive proximity sensor; 7. a controller; 8. and (4) injecting the test tube box.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses serum separation glues high pressure injecting glue device. Referring to fig. 1, a serum separation glues high pressure injecting glue device includes workstation 1 and installs injecting glue mechanism 2 on workstation 1, be equipped with multistation test tube conveying mechanism 3 on workstation 1, multistation test tube conveying mechanism 3 is located injecting glue mechanism 2's below, multistation test tube conveying mechanism 3 includes three conveyer belt 31 of installing on workstation 1, the top of every conveyer belt 31 all is equipped with the mechanism 4 of ajusting of injection test tube box 8, still is equipped with direction actuating mechanism 5 on the workstation 1, direction actuating mechanism 5 is suitable for control injecting glue mechanism 2 and is in each remove between the conveyer belt 31.

Referring to fig. 1 and 2, the glue injection mechanism 2 includes a glue supply tank 21, a glue supply pump 22, a glue injection plate 23, a glue injection rod 24, a conveying hose 25, an adjusting cylinder 26 and a lifting cylinder 27, the conveying hose 25 is provided with two hoses, one conveying hose 25 is used for communicating the glue supply pump 22 and the glue supply tank 21, the other conveying hose 25 is used for communicating the glue supply pump 22 and the glue injection plate 23, the glue injection plate 23 is hollow, a glue inlet through hole 231 is provided on the upper surface of the glue injection plate 23, a fixing nut 232 is fixedly connected to the upper side of the glue inlet through hole 231 in a concentric manner, the conveying hose 25 communicates one end of the glue supply pump 22 with the fixing nut 232 in a threaded manner, so that serum separation glue in the glue supply tank 21 is delivered into the inner cavity of the glue injection plate 23 through the glue supply pump 22.

The lower surface of the glue injection plate 23 is provided with a plurality of glue injection through holes 233 which are arranged in a matrix manner, the lower surface of the glue injection plate 23 is welded with a plurality of mounting sleeves 234 which are communicated with the glue injection through holes 233, the inner peripheral side wall of the mounting sleeves 234 is provided with threads, the glue injection rod 24 is hollow, two ends of the glue injection rod 24 are both arranged in an opening manner, the outer peripheral side wall of the top end of the glue injection rod 24 is provided with threads, the top end of the glue injection rod 24 is in threaded connection with the mounting sleeves 234, a lifting cylinder 27 is mounted above the glue injection rod 24 and used for driving the glue injection plate 23 to move up and down, the injection test tube box 8 is made of an iron material, and a plurality of test tubes which are matched with the glue injection rod 24 are arranged in a matrix manner in the injection test tube box; during the use, make notes offset plate 23 descend through lift cylinder 27, make and annotate in gluey pole 24 stretches into the test tube of injection test tube box 8 to be convenient for the serum separation glue through a plurality of notes gluey poles 24 pour into a plurality of test tubes into.

One end of the glue injection plate 23 is welded with a mounting frame 235 for mounting the adjusting cylinders 26, two adjusting cylinders 26 are arranged, the two adjusting cylinders 26 are fixedly connected to the mounting frame 235 in parallel, one ends of the two adjusting cylinders 26 close to the glue injection plate 23 are provided with piston sleeves 261 communicated with the inner cavity of the glue injection plate 23, and piston rods of the adjusting cylinders 26 are sleeved in the piston sleeves 261 and are in sealing fit with the inner peripheral walls of the piston sleeves 261; during the use, piston rod through adjusting cylinder 26 carries out reciprocating motion and realizes the regulation of injecting glue board 23 internal gas pressure, when injecting glue board 23 carries out the injecting glue during operation, adjusting cylinder 26 stretches out the piston rod and makes injecting glue board 23 internal formation malleation, makes serum separation glue from injecting glue pole 24 internal injection test tube, when injecting glue board 23 is in idle state, adjusting cylinder 26 returns the piston rod and makes injecting glue board 23 internal formation negative pressure, makes serum separation glue difficult from injecting glue pole 24 droppings.

Referring to fig. 1 and 3, the guiding driving mechanism 5 includes a first mounting plate 51, a second mounting plate 52, a motor 53, a lead screw 54, a lead screw sleeve 55, a guiding rod 56 and a sliding plate 57, the first mounting plate 51 and the second mounting plate 52 are welded on two sides of the workbench 1 at intervals, two sides of the first mounting plate 51 and the second mounting plate 52 in the length direction are respectively and vertically fixedly connected with a reinforcing plate 58, the lower end of the reinforcing plate 58 is welded on the workbench 1, a supporting plate 511 is welded on one side of the first mounting plate 51 far away from the second mounting plate 52, the motor 53 is horizontally and fixedly connected on the supporting plate 511, the lead screw 54 and the guiding rod 56 are arranged at intervals in parallel, the length arrangement direction of the lead screw 54 and the guiding rod 56 is perpendicular to the length direction of the first mounting plate 51, two ends of the lead screw 54 are respectively and rotatably connected to the first mounting plate 51 and the second mounting plate 52, and one end of the lead screw 54 penetrates through the first mounting plate 51 and is coaxially and fixedly connected with the output end of the motor 53, the screw rod sleeve 55 is sleeved on the screw rod 54, the screw rod sleeve 55 penetrates and is fixed at one end of the sliding plate 57, two ends of the guide rod 56 are fixedly connected to the first mounting plate 51 and the second mounting plate 52 respectively, a through hole 571 is horizontally formed in one end, far away from the screw rod sleeve 55, of the sliding plate 57 along the side wall, the sliding plate 57 is connected to the guide rod 56 in a sliding mode through the through hole 571, the lifting cylinder 27 is vertically and fixedly connected to the upper surface of the sliding plate 57, and a piston rod of the lifting cylinder 27 penetrates through the support plate 511 downwards and is fixedly connected with the glue injection plate 23; during the use, drive lead screw 54 through motor 53 and rotate, make slide plate 57 drive notes offset plate 23 and remove between first mounting panel 51 and second mounting panel 52 to make things convenient for notes offset plate 23 to carry out multistation injecting glue work.

Referring to fig. 1 and 3, an upper placing plate 512 and a lower placing plate 513 are welded on one side of the first mounting plate 51 away from the second mounting plate 52 at intervals in parallel, the lower placing plate 513 is located below the upper placing plate 512, the upper placing plate 512 is located below the supporting plate 511, the glue supply pump 22 is fixedly connected to the upper placing plate 512, the glue supply tank 21 is fixedly connected to the lower placing plate 513, the glue supply pump 22 and the conveying hose 25 communicated between the glue supply tanks 21 penetrate through the upper placing plate 512, and the conveying hose 25 communicated between the glue supply pump 22 and the glue injection plate 23 bypasses the first mounting plate 51.

Referring to fig. 1 and 4, the three conveyor belts 31 are arranged between the first mounting plate 51 and the second mounting plate 52 in parallel at intervals, the middle sections of the three conveyor belts 31 are located above the workbench 1, the conveying directions of the three conveyor belts 31 are all perpendicular to the length direction of the screw 54, and the three rotating motors 311 are respectively fixed to one sides of the three conveyor belts 31 and are all located at one side close to the first mounting plate 51.

The aligning mechanism 4 comprises two positioning rods 41 and two guide plates 42, the two positioning rods 41 are respectively welded on the workbench 1 and welded on two sides of the conveyor belt 31 at intervals, a positioning block 411 is fixedly connected on one side of the top ends of the two positioning rods 41 facing the conveyor belt 31, the positioning block 411 and the positioning rods 41 are integrally formed, one end of the positioning block 411 far away from the positioning rods 41 is welded with the guide plates 42, the two guide plates 42 are arranged above the conveyor belt 31 in parallel at intervals, each guide plate 42 comprises a linear part 421 and an inclined part 422, a horn-shaped introducing port 423 is formed between the two inclined parts 422, the caliber of the introducing port 423 is larger than the diameter of the injection test tube box 8, the introducing port 423 is used for introducing the injection test tube box 8 conveyed from the conveyor belt 31 and primarily aligning the injection test tube box 8, the length arrangement directions of the two linear parts 421 are both vertical to the length direction of the screw rod 54, a swing opening 424 is formed between the two linear portions 421, the aperture of the swing opening 424 is smaller than that of the introducing opening 423, when the injection test tube box 8 is immersed into the swing opening 424, one side, close to each other, of the two linear portions 421 is attached to two opposite sides of the injection test tube box 8, the conveying position of the injection test tube box 8 is quickly swung, and therefore the glue injection mechanism 2 can conveniently inject glue to test tubes in the injection test tube box 8.

Referring to fig. 3 and 4, each of the aligning mechanisms 4 is provided with A positioning rod 41 at A side close to the second mounting plate 52, A position sensor 6 is fixed to the positioning rod 41, the position sensor 6 is A metal inductive proximity sensor 61, which is BM1-481N1, the metal inductive proximity sensor 61 is fixed to A top end of the positioning rod 41, A sensing end of the metal inductive proximity sensor faces the conveyor belt 31, when the injection test tube box 8 is conveyed to A predetermined position by the conveyor belt 31, the metal inductive proximity sensor 61 senses the position of the injection test tube box 8 and generates A signal, the signal is transmitted to A controller 7 on the lower placing plate 513, the controller 7 is CP1E-E20SDR- A, the controller 7 controls A control switch on the rotating motor 311 to stop the rotating motor 311, so that the injection test tube box 8 is stopped at the predetermined position, and the signal is transmitted to the lifting cylinder 27 through the controller 7 respectively, The motor 53 and the adjusting cylinder 26 are arranged, so that the guiding driving mechanism 5 is controlled to drive the glue injection mechanism 2 to move to the position right above the conveyor belt 31, the glue injection mechanism 2 is controlled to perform glue injection work on the injection test tube boxes 8 on the conveyor belt 31, and automatic control of the glue injection work is achieved.

The implementation principle of the serum separation glue high-pressure glue injection device in the embodiment of the application is as follows: a plurality of injection test tube boxes 8 are placed on a plurality of conveyor belts 31 for conveying, the conveying positions of the injection test tube boxes 8 are quickly adjusted through guide plates 42 on two sides of the conveyor belts 31, when the injection test tube boxes 8 on one conveyor belt 31 are conveyed to a designated position, a metal induction proximity sensor 61 senses and transmits signals to a controller 7, the controller 7 controls a rotating motor 311 matched with the conveyor belt 31 to stop the rotating motor 311, the injection test tube boxes 8 stop at the designated position at the moment, meanwhile, the controller 7 controls a motor 53, a lifting cylinder 27, a glue supply pump 22 and an adjusting cylinder 26 to work, the motor 53 drives a screw rod 54 to rotate, so that a glue injection plate 23 moves to be right above the injection test tube boxes 8, the lifting cylinder 27 drives the glue injection plate 23 to descend to enable a glue injection rod 24 to extend into a test tube, the glue supply pump 22 separates and injects serum into the glue injection plate 23 through a conveying hose 25, the adjusting cylinder 26 extends out of the piston rod to form positive pressure in the glue injection plate 23, so that the serum separation glue in the glue injection plate is extruded out of the glue injection rod 24, and the serum separation glue is injected into the test tube; after the glue injection is completed, the controller 7 controls the adjusting cylinder 26 to retract the piston rod to enable negative pressure to be formed in the glue injection plate 23, so that serum separation glue is not prone to dropping out of the glue injection rod 24, then the lifting cylinder 27 is controlled to lift the glue injection plate 23 back, the rotating motor 311 rotates to enable the conveyor belt 31 to convey away the injection test tube box 8, at the moment, the motor 53 drives the lead screw 54 to rotate, and the glue injection plate 23 is enabled to move to other conveyor belts 31 immediately to conduct glue injection work on the next injection test tube box 8.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The utility model provides a serum separation glues high pressure injecting glue device, includes workstation (1) and installs injecting glue mechanism (2) on workstation (1), its characterized in that: a multi-station test tube conveying mechanism (3) is arranged on the workbench (1), the multi-station test tube conveying mechanism (3) is located below the glue injection mechanism (2), the multi-station test tube conveying mechanism (3) comprises a plurality of conveying belts (31) installed on the workbench (1), and a straightening mechanism (4) for straightening an injection test tube box (8) is arranged above each conveying belt (31);

still be equipped with direction actuating mechanism (5) on workstation (1), direction actuating mechanism (5) are suitable for control injecting glue mechanism (2) are in each move between conveyer belt (31).

2. The high-pressure glue injection device for serum separation glue according to claim 1, characterized in that: the glue injection mechanism (2) comprises a glue supply tank (21), a glue supply pump (22), a glue injection plate (23), a glue injection rod (24), a conveying hose (25), an adjusting cylinder (26) and a lifting cylinder (27), two ends of the glue supply pump (22) are respectively connected with the glue supply tank (21) and the glue injection plate (23) through the conveying hose (25), and the lifting cylinder (27) is connected with the glue injection plate (23);

annotate offset plate (23) and be the cavity setting, it is equipped with a plurality ofly to annotate gluey pole (24), and is a plurality of annotate gluey pole (24) all install the bottom of annotating offset plate (23), it is a plurality of annotate gluey pole (24) all with the inner chamber intercommunication of annotating offset plate (23), a plurality of annotate gluey pole (24) cavity and both ends opening.

3. The high-pressure glue injection device for serum separation glue according to claim 2, characterized in that: adjusting cylinder (26) set firmly in on annotating offset plate (23), the one end of adjusting cylinder (26) is provided with the intercommunication piston sleeve (261) of annotating offset plate (23) inner chamber, the piston rod of adjusting cylinder (26) is in piston sleeve (261) and with the sealed laminating of the inner wall of piston sleeve (261).

4. The high-pressure glue injection device for serum separation glue according to claim 3, characterized in that: the guide driving mechanism (5) comprises a first mounting plate (51), a second mounting plate (52), a motor (53), a screw rod (54), a screw rod sleeve (55), a guide rod (56) and a sliding plate (57), the first mounting plate (51) and the second mounting plate (52) are arranged at a vertical interval, the motor (53) is positioned on the first mounting plate (51), the screw rod (54) and the guide rod (56) are arranged in parallel at intervals, two ends of the screw rod (54) are respectively and rotatably connected to the first mounting plate (51) and the second mounting plate (52), one end of the screw rod (54) penetrates through the first mounting plate (51) and is coaxially and fixedly connected with the output end of the motor (53), the screw rod sleeve (55) is sleeved on the screw rod (54), and the screw rod sleeve (55) is fixedly connected to the sliding plate (57);

the two ends of the guide rod (56) are fixedly connected to the first mounting plate (51) and the second mounting plate (52) respectively, one end, away from the screw rod (54), of the sliding plate (57) is provided with a through hole (571), the sliding plate (57) is connected to the guide rod (56) in a sliding mode through the through hole (571), the lifting cylinder (27) is fixedly connected to the sliding plate (57), and a piston rod of the lifting cylinder (27) is fixedly connected to the glue injection plate (23).

5. The high-pressure glue injection device for serum separation glue according to claim 4, characterized in that: a plurality of conveyer belt (31) are located between first mounting panel (51) and second mounting panel (52), and a plurality of the direction of transfer of conveyer belt (31) all with the length direction of lead screw (54) is perpendicular, be equipped with on conveyer belt (31) and be used for driving its pivoted rotating electrical machines (311).

6. The high-pressure glue injection device for serum separation glue according to claim 1, characterized in that: the straightening mechanism (4) comprises two positioning rods (41) and two guide plates (42), wherein the positioning rods (41) are fixedly arranged on the working table (1) and located on two sides of the conveyor belt (31), the guide plates (42) are arranged on the positioning rods (41), the guide plates (42) are located above the conveyor belt (31), the guide plates (42) comprise linear portions (421) and inclined portions (422), an introducing port (423) is formed between the two inclined portions (422), a straightening port (424) is formed between the two linear portions (421), the caliber of the introducing port (423) is larger than that of the straightening port (424), and the introducing port (423) is in a horn shape.

7. The high-pressure glue injection device for serum separation glue according to claim 6, characterized in that: be equipped with position inductor (6) on locating lever (41), position inductor (6) are used for the response the position of injection test tube box (8) on conveyer belt (31), be equipped with controller (7) on workstation (1), position inductor (6) pass through controller (7) pass through signal biography to rotation motor (311), lift cylinder (27), motor (53) and adjusting cylinder (26).

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