CN216806939U - Test tube lid hinders fungus membrane installation and uses conveyer - Google Patents

Abstract

The application relates to a test tube lid hinders conveyer for mycoderm installation belongs to the field of test tube production technique, and it includes frame and carousel, the carousel rotates and sets up in the frame, it has two at least stations to distribute on the carousel. This application has the artifical test tube lid of transporting of reduction, improves work efficiency for the welding efficiency who hinders the fungus membrane obtains the effect that improves.

Description

Test tube lid hinders fungus membrane installation and uses conveyer

Technical Field

The application relates to the field of test tube production technology, in particular to a test tube cover transportation device for installing a bacteria blocking membrane.

Background

The vacuum blood sampling test tube is a disposable negative pressure vacuum glass tube or negative pressure vacuum PET plastic tube which can realize quantitative blood sampling.

The applicant has disclosed a vacuum blood collection tube convenient for blood collection in chinese utility model patent with publication number CN213097909U, the vacuum blood collection tube is shown in fig. 1 of the specification, and includes a test tube cover 6, two first sampling interfaces 61 and second sampling interfaces 62 with different diameters are provided on the test tube cover 6, the blood collection needle is installed at the first sampling interfaces 61 and the second sampling interfaces 62, wherein the diameter of the first sampling interfaces 61 is smaller than that of the second sampling interfaces 62. The test tube cover 6 is also provided with a vent hole 63, so that when blood is input into the blood sampling test tube, redundant air in the tube can be discharged through the vent hole 63 to keep the air permeability in the tube. The air holes 63 of the test tube cover 6 are welded with the bacterium blocking film 64 to reduce the phenomenon that the outside air and bacteria enter the blood sampling cover tube through the air holes 63 to pollute the blood.

At present, a step of welding a bacteria-resistant film at an air vent of a test tube cover is as follows, firstly, a worker places the bacteria-resistant film on a cutting station for cutting, so that the bacteria-resistant film covers the air vent. Subsequently, the staff places the test tube lid on the welding station, starts ultrasonic welding machine, will hinder the breathing pore department that the fungus membrane welded the test tube lid.

In view of the above-mentioned related art, the inventor thinks that, transferring the test tube cover between two adjacent stations by manual work has low work efficiency, resulting in that the welding efficiency of the anti-bacterial film is low.

SUMMERY OF THE UTILITY MODEL

In order to improve and hinder the problem that the fungus membrane welding work efficiency is low, this application provides a conveyor is used in test tube lid hinders fungus membrane installation.

The application provides a pair of test tube lid hinders conveyer for the installation of mycoderm adopts following technical scheme:

the utility model provides a test tube lid hinders conveyer for pellicle installation, includes frame and carousel, the carousel rotates and sets up in the frame, it has two at least stations to distribute on the carousel.

Through adopting above-mentioned technical scheme staff to arrange the test tube lid in the station of carousel, then will cut hinder the bacterial membrane and cover in the venthole department of test tube lid, the carousel rotates, is located the welding department when the test tube lid, will hinder the bacterial membrane through ultrasonic bonding machine and weld in the edge of test tube lid bleeder vent. Thereby can reduce the artifical condition of transporting the test tube lid, improve work efficiency for hinder the welding efficiency of fungus membrane and obtain improving.

Preferably, a positioning tool is fixed on the turntable and located at each station, a first mounting groove and a second mounting groove are formed in the positioning tool, and a first sampling interface and a second sampling interface of the test tube cover are respectively mounted in the first mounting groove and the second mounting groove.

Through adopting above-mentioned technical scheme, can be convenient for arrange the position on the location frock in to the test tube lid and prescribe a limit to can cover the position of bleeder vent with the test tube and prescribe a limit to, thereby can be convenient for hinder the mycoderm and cover in bleeder vent department, and be convenient for hinder the welding between mycoderm and the test tube lid.

Preferably, the positioning tool is provided with an air suction hole, the air suction hole extends to one side of the positioning tool contacted with the test tube cover, the air suction hole is communicated with the air holes of the test tube cover, and the positioning tool is connected with a negative pressure suction pipe communicated with the air suction hole.

Through adopting above-mentioned technical scheme, the test tube lid is arranged in on the location frock, and the negative pressure straw is breathed in, can reliably inhale tightly on the location frock with the test tube lid. When the bacteria-resistant film is covered on the air vent, the bacteria-resistant film can be reliably sucked at the air vent through the negative pressure in the negative pressure suction pipe. The carousel pivoted in-process is difficult to appear owing to hinder the fungus membrane and lighter lead to hindering the phenomenon that fungus membrane and test tube lid break away from the connection to can be convenient for will hinder the fungus membrane and weld on the test tube lid, cover the bleeder vent.

Preferably, still include feed mechanism, feed mechanism includes vibration dish and conveying rail, vibration dish and conveying rail are all installed in the frame, the one end of conveying rail and the export intercommunication of vibration dish, the other end of conveying rail extends to carousel department, install in the frame and convey the test tube cover of conveying rail tip to the material loading adsorption component of location frock department.

Through adopting above-mentioned technical scheme, the test tube lid is arranged in the vibration dish, and the vibration dish conveys the test tube lid to the conveying rail on, adsorbs the subassembly through the material loading and conveys the test tube lid on the conveying rail to the location frock on, and the carousel rotates, and the test tube lid accomplishes the welding that hinders the mycoderm on each station.

Preferably, the conveying rail is provided with the locating piece towards the one end of carousel, set up the location breach with conveying rail intercommunication on the locating piece, the width of location breach is the convergent trend towards the direction of carousel, the edge setting that the second mounting groove is close to the carousel.

Through adopting above-mentioned technical scheme, because the width of location breach is gradually trending towards the direction of carousel to the diameter of first sampling interface is less than the diameter of second sampling interface, consequently, passes through transfer rail conveying to locating piece department when the test tube lid, and first sampling interface is towards the lateral wall of carousel. The material loading adsorbs the subassembly and transports the test tube lid to the location frock on, first sampling interface and second sampling interface can with the first mounting groove and the second mounting groove adaptation that correspond for the test tube lid can be reliable install on the location frock, so that the later stage welding hinders the mycoderm on test tube lid bleeder vent.

Preferably, the material loading adsorption component comprises a lifting material loading cylinder and a material loading suction head, a material loading mounting frame is installed on the frame, the lifting material loading cylinder is installed on the material loading mounting frame, the material loading suction head is installed at the end part of a piston rod of the lifting material loading cylinder, a material loading negative pressure pipe is connected to the material loading suction head, the lifting material loading cylinder controls the material loading suction head to move towards the conveying rail, and a transplanting material loading cylinder for driving the lifting material loading cylinder to move transversely towards the direction of the positioning tool is installed on the material loading mounting frame.

Through adopting above-mentioned technical scheme, start lift material loading cylinder, the material loading suction head descends along with the piston rod of lift material loading cylinder, and material loading suction head and test tube cover contact, and material loading negative pressure tube breathes in, and the material loading suction head will be absorbed the test tube cover, and the piston rod of lift material loading cylinder rises. And then, starting the transplanting feeding cylinder, and transversely moving the lifting feeding cylinder adsorbed with the test tube cover to the position right above the positioning tool through the transplanting feeding cylinder. Then, the piston rod of the lifting feeding cylinder descends, and the test tube cover is placed on the positioning tool, so that the test tube cover can be conveyed.

Preferably, the end of the loading suction head facing the test tube cover is made of flexible material.

Through adopting above-mentioned technical scheme, can protect the test tube lid, reduce the impact that produces the test tube lid when the material loading suction head descends.

Preferably, an air blowing pipe is fixed on the side wall of the vibration disk, the air blowing pipe extends towards the conveying rail to control the test tube cover to move towards the positioning notch, and one end, far away from the conveying rail, of the air blowing pipe is connected with an air source.

Through adopting above-mentioned technical scheme, convey to the conveying rail through the vibration dish when the test tube lid, then the gas blow pipe blows towards the conveying rail towards the direction of carousel, can convey the test tube lid on the conveying rail towards the direction of carousel to be convenient for material loading adsorption component carries the test tube lid.

Preferably, a pressing plate is fixed on one side of the width direction of the conveying rail, the length direction of the pressing plate is consistent with the length direction of the conveying rail, an air duct is formed on the other side of the pressing plate in the width direction of the conveying rail, and the test tube cover is arranged between the pressing plate and the conveying rail.

Through adopting above-mentioned technical scheme, the clamp plate can carry on spacingly to the test tube lid, when blowing to the transfer rail through the blowing pipe, is difficult to the disconnection between test tube lid and the transfer rail. The setting in wind channel can be convenient for the test tube lid towards the direction motion of carousel.

Preferably, unloading mechanism includes lift unloading cylinder, unloading suction head and slide rail, install the unloading mounting bracket in the frame, the vertical installation of lift unloading cylinder is on the unloading mounting bracket, the unloading suction head is installed in the tip of the piston rod of lift unloading cylinder, be connected with unloading negative pressure pipe on the unloading suction head, the slide rail slope is installed in the frame, install the transplantation unloading cylinder that the drive goes up and down unloading cylinder lateral shifting on the unloading mounting bracket, the one end intercommunication that the carousel was kept away from to the slide rail has the containing box.

By adopting the technical scheme, after the bacterium blocking film is welded on the air holes of the test tube cover, the lifting blanking cylinder is started, the blanking suction head descends along with the piston rod of the lifting blanking cylinder, the blanking suction head is in contact with the test tube cover, the blanking negative pressure tube sucks air, the blanking suction head sucks the test tube cover, and the piston rod of the lifting blanking cylinder is driven to ascend. Then, the transplanting and blanking cylinder is started, and the lifting and blanking cylinder with the test tube cover is transversely moved to the position right above the sliding rail through the transplanting and blanking cylinder. Then, the piston rod of drive lift unloading cylinder descends, arranges the test tube lid in on the slide rail, and the test tube lid gets into in the containing box and is collected through the slide rail.

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

the effect of improving the working efficiency can be achieved by arranging the rotary table and the stations;

the effect of limiting the test tube cover and the bacteria-resistant membrane can be achieved by arranging the air suction duct and the negative pressure suction tube;

through setting up locating piece and location breach, can play the effect that the test tube lid of being convenient for transported to the location frock.

Drawings

FIG. 1 is a schematic view showing the overall structure of a test tube cover in the related art;

FIG. 2 is a schematic view showing the overall structure of a transport device for mounting a test tube cap biofilm-inhibiting membrane in the embodiment of the present application;

FIG. 3 is a schematic structural diagram of a positioning tool in an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a feeding mechanism in an embodiment of the present application;

FIG. 5 is an enlarged schematic view of portion A of FIG. 4;

fig. 6 is an enlarged schematic view of a portion B in fig. 2.

Description of the reference numerals: 1. a frame; 2. a turntable; 21. positioning a tool; 211. a first mounting groove; 212. a second mounting groove; 213. a suction duct; 22. a negative pressure suction pipe; 3. a feeding mechanism; 31. a vibrating pan; 32. a transfer rail; 321. positioning a block; 322. positioning the notch; 323. pressing a plate; 324. an air duct; 33. a feeding adsorption component; 331. a lifting feeding cylinder; 332. a feeding suction head; 333. a feeding mounting frame; 334. a feeding negative pressure pipe; 335. transplanting a feeding cylinder; 336. a feeding mounting plate; 34. an air blowing pipe; 4. a blanking mechanism; 41. a lifting blanking cylinder; 42. blanking suction head; 43. a slide rail; 44. blanking mounting racks; 45. blanking a negative pressure pipe; 46. a transplanting and blanking cylinder; 47. a storage box; 48. a blanking mounting plate; 5. ultrasonic welding machine; 6. a test tube cover; 61. a first sampling interface; 62. a second sampling interface; 63. air holes are formed; 64. and (5) a bacteria-blocking film.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses conveyor is used in installation of test tube lid hinders mycoderm. Referring to fig. 2, a conveyor is used in installation of test tube lid fungus membrane, including frame 1, carousel 2, feed mechanism 3 and unloading mechanism 4, frame 1 is fixed in subaerially, and carousel 2 rotates to be installed in frame 1, is provided with four stations on the carousel 2, and four stations are along carousel 2's circumference evenly distributed, and equal fixed mounting has location frock 21 on every station, and feed mechanism 3 and unloading mechanism 4 all are fixed in on the frame 1. When welding the fungus membrane 64 that hinders on the test tube cover 6, at first transport test tube cover 6 to first location frock 21 through feed mechanism 3 on, carousel 2 rotates and drives location frock 21 and rotate, afterwards, cover on the test tube cover 6 on the second location frock 21 and hinder fungus membrane 64, the third frock will hinder fungus membrane 64 and weld in the bleeder vent 63 department of test tube cover 6. And finally, taking the test tube cap 6 welded with the antibacterial film 64 out of the fourth positioning tool 21 through the blanking mechanism 4. Thereby forming the assembly line work and improving the production efficiency.

Referring to fig. 3, each positioning fixture 21 is provided with a first mounting groove 211, a second mounting groove 212 and an air suction duct 213, the second mounting groove 212 is disposed near the edge of the turntable 2, and the first sampling interface 61 and the second sampling interface 62 of the test tube cover 6 are respectively mounted in the first mounting groove 211 and the second mounting groove 212. The air suction hole 213 is formed along the thickness direction of the positioning tool 21, the air suction hole 213 extends to one side of the positioning tool 21 contacting with the test tube cover 6, and when the test tube cover 6 is mounted on the positioning tool 21, the air suction hole 213 is communicated with the air hole 63 of the test tube cover 6. Every location frock 21 is last all to be connected with negative pressure straw 22, and negative pressure straw 22 communicates with aspiration channel 213, and the diameter of aspiration channel 213 is less than the diameter of bleeder vent 63, and when test tube cover 6 installed on location frock 21, negative pressure straw 22 bled, can inhale test tube cover 6 on location frock 21. When the air holes 63 are covered with the bacteria-blocking film 64, the bacteria-blocking film 64 is sucked and reliably adsorbed on the test tube cover 6, so that the bacteria-blocking film 64 and the test tube cover 6 are welded after the rotary disc 2 rotates to the next station.

Referring to fig. 4 and 5, feed mechanism 3 is including all installing vibration dish 31 and the transfer rail 32 in frame 1, the export has been seted up on the lateral wall of vibration dish 31, the one end of transfer rail 32 and the export intercommunication of vibration dish 31, the other end of transfer rail 32 extends to carousel 2 department, and transfer rail 32 is fixed with locating piece 321 towards the one end of vibration dish 31, location breach 322 has been seted up on locating piece 321, the width of location breach 322 is the convergent trend towards the direction of carousel 2, when test tube cover 6 is located location breach 322, test tube cover 6's first sampling interface 61 will set up towards carousel 2.

A pressing plate 323 is fixed to the conveying rail 32, the length direction of the pressing plate 323 is the same as the length direction of the conveying rail 32, one side of the pressing plate 323 in the width direction is fixed to one side of the conveying rail 32 in the width direction, an air duct 324 is formed between the other side of the pressing plate 323 in the width direction and the other side of the conveying rail 32 in the width direction, and the test tube cover 6 is placed between the pressing plate 323 and the conveying rail 32. An air blowing pipe 34 is fixed on the side wall of the vibration disk 31, the side wall of the air blowing pipe 34 is fixedly connected with the side wall of the vibration disk 31, one end of the air blowing pipe 34 extends towards the conveying rail 32, and the other end of the air blowing pipe 34 is connected with an air source. When test tube lid 6 was installed on conveying rail 32, gas blow pipe 34 sprayed gas, through gaseous test tube lid 6 towards the direction propelling movement of carousel 2, carries on spacingly through clamp plate 323 to test tube lid 6 simultaneously for be difficult to take place to break away from between test tube lid 6 and the conveying rail 32.

Referring to fig. 4 and 5, the rack 1 is provided with a loading adsorption assembly 33, and the test tube cover 6 is conveyed from the positioning notch 322 to the positioning tool 21 through the loading adsorption assembly 33. The feeding adsorption component 33 comprises a feeding mounting frame 333, a transplanting feeding cylinder 335, a lifting feeding cylinder 331 and a feeding suction head 332, the feeding mounting frame 333 is fixed on the frame 1, the transplanting feeding cylinder 335 is fixed on the feeding mounting frame 333, the transplanting feeding cylinder 335 is a bidirectional cylinder, and a piston rod of the transplanting cylinder 335 transversely moves towards the direction of the turntable 2. The cylinder body of the lifting and loading cylinder 331 is fixed to the cylinder body of the transplanting and loading cylinder 335, and the piston rod of the lifting and loading cylinder 331 moves up and down in the direction of the conveying rail 32. A feeding mounting plate 336 is fixed to the end of the piston rod of the lifting feeding cylinder 331, a feeding suction head 332 is mounted on the feeding mounting plate 336, and a feeding negative pressure pipe 334 is connected to the feeding suction head 332.

The test tube cover 6 is placed in the positioning notch 322, the piston rod of the lifting feeding cylinder 331 descends, so that the feeding suction head 332 is in contact with the test tube cover 6, meanwhile, the feeding negative pressure tube 334 sucks air, and the feeding suction head 332 sucks the test tube cover 6. And then, the piston rod of the lifting loading cylinder 331 rises, the cylinder body of the transplanting loading cylinder 335 moves transversely to drive the test tube cover 6 to move towards the direction of the positioning tool 21, and when the loading suction head 332 is positioned right above the positioning tool 21, the piston rod of the lifting loading cylinder 331 descends to place the test tube cover 6 on the positioning tool 21.

Referring to fig. 6, the blanking mechanism 4 includes a blanking mounting frame 44, a transplanting blanking cylinder 46, a lifting blanking cylinder 41, a blanking suction head 42, a slide rail 43 and a storage box 47, the blanking mounting frame 44 is fixed on the frame 1, the transplanting blanking cylinder 46 is fixed on the blanking mounting frame 44, a piston rod of the transplanting blanking cylinder 46 moves laterally, and the transplanting blanking cylinder 46 is a bidirectional cylinder. The lifting blanking cylinder 41 is fixed on the cylinder body of the transplanting blanking cylinder 46, and the piston rod of the lifting blanking cylinder 41 moves up and down towards the direction of the positioning tool 21. A blanking mounting plate 48 is fixed at the end of the piston rod of the lifting blanking cylinder 41, a blanking suction head 42 is mounted on the blanking mounting plate 48, and a blanking negative pressure pipe 45 is connected to the blanking suction head 42. The slide rail 43 is installed on the frame 1 in a direction inclined toward the ground, and the lower end of the slide rail 43 extends into the storage box 47.

The test tube cover 6 welded with the bacteria blocking film 64 is placed on the positioning tool 21, the piston rod of the lifting blanking cylinder 41 descends, so that the blanking suction head 42 is in contact with the test tube cover 6, meanwhile, the blanking negative pressure tube 45 sucks air, and the blanking suction head 42 sucks the test tube cover 6. The piston rod of the lifting blanking cylinder 41 rises, the cylinder body of the transplanting blanking cylinder 46 moves transversely, when the blanking suction head 42 is positioned right above the slide rail 43, the piston rod of the lifting blanking cylinder 41 descends, the blanking negative pressure pipe 45 stops sucking air, the test tube cover 6 falls into the slide rail 43, and then the test tube cover enters the containing box 47 to be collected. The ends of the loading tip 332 and the unloading tip 42 facing the test tube cover 6 are made of a flexible material to reduce the impact on the test tube cover 6 when the loading tip 332 and the unloading tip 42 are lowered.

The implementation principle of the conveyer for the installation of the test tube cover bacterium blocking film is as follows: first, the test tube cover 6 is transferred onto the transfer rail 32 through the vibration plate 31, and the test tube cover 6 is transferred to the positioning notch 322 through the air blowing tube 34.

Subsequently, the piston rod of the lifting loading cylinder 331 descends to enable the loading suction head 332 to be in contact with the test tube cover 6, meanwhile, the loading negative pressure tube 334 sucks air, the loading suction head 332 sucks the test tube cover 6, the piston rod of the lifting loading cylinder 331 ascends to drive the transplanting loading cylinder 335 to transversely move, when the loading suction head 332 is located right above the positioning tool 21, the piston rod of the lifting loading cylinder 331 descends to place the test tube cover 6 on the positioning tool 21, and at the moment, the negative pressure suction tube 22 sucks air to suck the test tube cover 6 on the positioning tool 21.

Then, the turntable 2 is rotated, when the positioning tool 21 with the test tube cover 6 is placed to the station covering the bacteria-blocking film 64, the bacteria-blocking film 64 is covered on the test tube cover 6, and the bacteria-blocking film 64 is sucked to the air holes 63 through the negative pressure suction pipe 22.

When the rotating disc 2 is rotated again, the test tube cover 6 covered with the bacteria-resisting film 64 rotates to the third station, the bacteria-resisting film 64 is welded at the air holes 63 of the test tube cover 6 through the ultrasonic welding machine 5.

Finally, the test tube cap 6 welded with the antibacterial film 64 is taken out from the fourth positioning tool 21 by the blanking mechanism 4 and collected by the storage box 47.

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 test tube lid hinders conveyer for mycoderm installation which characterized in that: the device comprises a rack (1) and a rotary table (2), wherein the rotary table (2) is rotatably arranged on the rack (1), and at least two stations are distributed on the rotary table (2);

a positioning tool (21) is fixed on the turntable (2) and positioned at each station, a first mounting groove (211) and a second mounting groove (212) are formed in the positioning tool (21), and a first sampling interface (61) and a second sampling interface (62) of the test tube cover (6) are respectively mounted in the first mounting groove (211) and the second mounting groove (212);

the test tube conveying device is characterized by further comprising a feeding mechanism (3) and a discharging mechanism (4), wherein the feeding mechanism (3) and the discharging mechanism (4) are fixed on the rack (1), the feeding mechanism (3) comprises a vibration disc (31) and a conveying rail (32), the vibration disc (31) and the conveying rail (32) are installed on the rack (1), one end of the conveying rail (32) is communicated with an outlet of the vibration disc (31), the other end of the conveying rail (32) extends to the position of the turntable (2), and a feeding adsorption assembly (33) for conveying a test tube cover (6) at the end part of the conveying rail (32) to the position of the positioning tool (21) is installed on the rack (1);

conveying rail (32) are provided with locating piece (321) towards the one end of carousel (2), set up location breach (322) with conveying rail (32) intercommunication on locating piece (321), the width of location breach (322) is the convergent trend towards the direction of carousel (2), second mounting groove (212) are close to the edge setting of carousel (2).

2. The test tube cover hinders for mycoderm installation conveyer of claim 1, characterized in that: seted up inspiratory pore (213) on location frock (21), inspiratory pore (213) extend to one side that location frock (21) and test tube lid (6) contacted, inspiratory pore (213) and bleeder vent (63) intercommunication of test tube lid (6), be connected with on location frock (21) with the negative pressure straw (22) of inspiratory pore (213) intercommunication.

3. The test tube cover hinders for mycoderm installation conveyer of claim 1, characterized in that: material loading adsorption component (33) are including lift material loading cylinder (331) and material loading suction head (332), install material loading mounting bracket (333) on frame (1), install on material loading mounting bracket (333) lift material loading cylinder (331), material loading suction head (332) are installed in the tip of the piston rod of lift material loading cylinder (331), be connected with material loading negative pressure pipe (334) on material loading suction head (332), material loading cylinder (331) control material loading suction head (332) move towards transfer rail (32), install the transplantation material loading cylinder (335) of drive material loading cylinder (331) towards the direction lateral shifting of location frock (21) on material loading mounting bracket (333).

4. The test tube cap bacteria-blocking membrane mounting transportation device according to claim 3, wherein: the end of the feeding suction head (332) facing the test tube cover (6) is made of flexible material.

5. The test tube cover hinders for mycoderm installation conveyer of claim 1, characterized in that: the side wall of the vibrating disk (31) is fixedly provided with an air blowing pipe (34), the air blowing pipe (34) extends towards the direction of the conveying rail (32) to control the test tube cover (6) to move towards the direction of the positioning notch (322), and one end, far away from the conveying rail (32), of the air blowing pipe (34) is connected with an air source.

6. The test tube cover hinders fungus membrane installation and uses conveyer according to claim 5 characterized in that: a pressing plate (323) is fixed on one side of the width direction of the conveying rail (32), the length direction of the pressing plate (323) is consistent with the length direction of the conveying rail (32), an air duct (324) is formed on the other side of the pressing plate (323) and the width direction of the conveying rail (32), and the test tube cover (6) is arranged between the pressing plate (323) and the conveying rail (32).

7. The test tube cover hinders for mycoderm installation conveyer of claim 1, characterized in that: unloading mechanism (4) are including lift unloading cylinder (41), unloading suction head (42) and slide rail (43), install unloading mounting bracket (44) on frame (1), lift unloading cylinder (41) vertical installation is on unloading mounting bracket (44), the tip in the piston rod of lift unloading cylinder (41) is installed in unloading suction head (42), be connected with unloading negative pressure pipe (45) on unloading suction head (42), slide rail (43) slope is installed on frame (1), install the transplantation unloading cylinder (46) that drive lift unloading cylinder (41) lateral shifting on unloading mounting bracket (44), the one end intercommunication that carousel (2) were kept away from in slide rail (43) has containing box (47).

Images