CN220511852U - Multifunctional plant tissue culture frame - Google Patents

Abstract

The multifunctional plant tissue culture frame has the advantages that through the rotation of the screw rod, the vertical operation of the sheet-shaped top piece is pulled by the rotation of the screw rod, and the sheet-shaped top piece is attached to the ground surface, so that the swing of the lower wall can be prevented, and the falling risk of tissue culture seedlings on the frame body of the tissue culture frame is prevented; the lower end of the tissue culture frame body is connected with the pin when the tissue culture frame body runs downwards, the running traction pin of the tissue culture frame body runs towards the inside of the vertical through rod, and vibration reduction is performed when the tissue culture frame body runs downwards through the damper, so that the application life is prolonged; because the traction bar is arranged, the whole operation of the lifting platform can be conveniently executed through the traction bar; the structure is compact, the lower wall is prevented from swinging through the coordination equipment, the falling risk of the tissue culture seedlings on the tissue culture frame body is prevented, vibration reduction can be performed when the tissue culture frame body runs downwards through the vibration reduction equipment, and the application life is prolonged.

Description

Multifunctional plant tissue culture frame

Technical Field

The utility model belongs to the technical field of plant tissue culture frames, and particularly relates to a multifunctional plant tissue culture frame.

Background

The plant tissue culture rack is a steel frame for storing inoculated tissue culture seedlings in plant tissue culture.

In order to achieve the lifting operation of the main body of the plant tissue culture rack, a type of plant tissue culture rack is currently generally used, which comprises: motion chassis, X type pole and group banks up with earth and puts up the main part, X type pole is located between motion chassis and the group banks up with earth and puts up the main part, motion chassis roof both sides mirror image is equipped with damping equipment, the group banks up with earth and also mirror image is equipped with damping equipment on bottom the main part both sides, damping equipment contains: the device comprises a lower wall, a guide cylinder, a guide strip, a curved tension strip, a disc spring, a bearing sheet and a vibration damping sheet; according to the plant tissue culture frame, the corresponding vibration reduction equipment is arranged on the two sides of the motion chassis and the two sides of the tissue culture frame main body, so that the impact of the tissue culture frame main body when the tissue culture frame main body runs downwards is weakened, and the vibration reduction function is achieved.

The plant tissue culture rack has the following defects:

when the plant tissue culture frame moves to the position of the pit on the ground surface, the truckles can not ensure to be attached to the ground surface, so that the tissue culture frame main body swings when moving downwards, and the falling risk of tissue culture seedlings on the tissue culture frame main body can occur.

In order to overcome the defects, the utility model provides the multifunctional plant tissue culture frame with the function of lifting vibration reduction.

Disclosure of Invention

In order to solve the problems, the utility model provides the multifunctional plant tissue culture frame, which effectively overcomes the defect that in the prior art, when the plant tissue culture frame moves to the position of a pit in the ground surface, casters cannot ensure that the plant tissue culture frame is attached to the ground surface, so that the frame body of the tissue culture frame swings when moving downwards, and the falling risk of tissue culture seedlings on the frame body of the tissue culture frame can occur.

In order to overcome the defects in the prior art, the utility model provides a solution of a multifunctional plant tissue culture frame, which comprises the following concrete steps:

a multifunctional plant tissue culture rack, comprising:

the hydraulic piston 5, the lower wall 23, the tissue culture frame 24, the steel bearing plate 6 with the inoculated tissue culture seedlings placed thereon and the X-shaped lifting rod 25 are fixedly connected at 4 vertexes of the lower end of the lower wall 23, the caster 4 with brake suitable for the tissue culture frame 24 to operate is fixedly connected to the lower wall 23, the X-shaped lifting rod 25 is arranged on the lower wall 23, the tissue culture frame 24 is arranged on the X-shaped lifting rod 25, the hydraulic piston 5 is arranged on the X-shaped lifting rod 25 and used for pulling the X-shaped lifting rod 25 to operate upwards or downwards, a water pumping motor communicated with the hydraulic piston 5 is arranged in the lower wall 23, a water storage cabinet communicated with the water pumping motor is arranged at the lower end of the water pumping motor, and the steel bearing plate 6 is vertically arranged on the tissue culture frame 24 in a layered manner;

a coordinating device provided on the lower wall 23 for preventing the lower wall 23 from swinging;

damping means are provided on the lower wall 23 for performing damping when the tissue culture frame body 24 is run downward.

Preferably, the coordination device comprises 4 turning pieces 9, 4 lead screws 21 and 4 sheet-shaped top pieces 26, wherein the lower ends of the 4 turning pieces 9 are fixedly connected with the lower end of the lower wall 23, the 4 lead screws 21 are respectively connected with wire openings formed in the 4 turning pieces 9 in a wire mode, and the upper ends of the 4 sheet-shaped top pieces 26 are respectively connected with the lower ends of the 4 lead screws 21.

Preferably, the shape of the corner piece 9 is a right angle fold.

Preferably, the vibration damping device comprises 4 vertical through rods 8, 4 pins 7 and 4 vibration dampers 22, wherein the lower ends of the 4 vertical through rods 8 are respectively fixedly connected with four vertexes of the upper end of the lower wall 23, the outer surfaces of the 4 pins 7 are respectively in clearance fit with the inner surfaces of the vertical through rods 8, the lower ends of the 4 vibration dampers 22 are respectively fixedly connected with the inner surfaces of the lower ends of the 4 vertical through rods 8, and the upper ends of the 4 vibration dampers 22 are respectively fixedly connected with the lower ends of the 4 pins 7.

Preferably, one side of the lower wall 23 is fixedly connected to a traction bar 2 adapted to push the frame 24 of the tissue culture frame to perform the operation.

Preferably, the inner surfaces of two sides of the vertical through rod 8 are provided with strip-shaped guide openings, two sides of the pin 7 are fixedly connected with the guide sheet 10, and one side of the guide sheet 10 is in clearance fit with the inner surfaces of the strip-shaped guide openings.

Preferably, the traction bar 2 is sleeved with a plastic cylinder 3 for increasing friction.

Preferably, the outer surface of the plastic cylinder 3 for friction increase is textured.

Preferably, the upper wall of the steel bearing plate 6 is provided with inoculated tissue culture seedlings, and the lower wall of the steel bearing plate 6 is provided with a full-spectrum cold light lamp.

Preferably, a full spectrum luminescent lamp is hinged to the lower wall of the steel carrier plate 6.

The beneficial effects of the utility model are as follows:

the screw rod is rotated, so that the vertical operation of the sheet-shaped top piece is pulled by the rotation of the screw rod, and the sheet-shaped top piece is attached to the ground surface, thereby preventing the lower wall from swinging and preventing the falling risk of the tissue culture seedlings on the frame body of the tissue culture frame; the lower end of the tissue culture frame body is connected with the pin when the tissue culture frame body runs downwards, the running traction pin of the tissue culture frame body runs towards the inside of the vertical through rod, and vibration reduction is performed when the tissue culture frame body runs downwards through the damper, so that the application life is prolonged; because the traction bar is arranged, the whole operation of the lifting platform can be conveniently executed through the traction bar; the structure is compact, the lower wall is prevented from swinging through the coordination equipment, the falling risk of the tissue culture seedlings on the tissue culture frame body is prevented, vibration reduction can be performed when the tissue culture frame body runs downwards through the vibration reduction equipment, and the application life is prolonged.

Drawings

FIG. 1 is a front view of the multifunctional plant tissue culture stand of the present utility model.

FIG. 2 is a schematic side view of the multifunctional plant tissue culture rack of the present utility model.

Fig. 3 is a schematic view of a coordination apparatus of the multifunctional plant tissue culture stand of the present utility model.

Fig. 4 is a schematic view of a vertical through rod of the multifunctional plant tissue culture stand of the present utility model.

Detailed Description

The utility model will be described in more detail with reference to the drawings and examples.

As shown in fig. 1 to 4, a multifunctional plant tissue culture stand includes:

the hydraulic piston 5, the lower wall 23, the tissue culture frame 24, the steel bearing plate 6 with the inoculated tissue culture seedlings placed thereon and the X-shaped lifting rod 25 are fixedly connected at 4 vertexes of the lower end of the lower wall 23, the caster 4 with brake suitable for the tissue culture frame 24 to operate is fixedly connected to the lower wall 23, the X-shaped lifting rod 25 is arranged on the lower wall 23, the tissue culture frame 24 is arranged on the X-shaped lifting rod 25, the hydraulic piston 5 is arranged on the X-shaped lifting rod 25 and used for pulling the X-shaped lifting rod 25 to operate upwards or downwards, a water pumping motor communicated with the hydraulic piston 5 is arranged in the lower wall 23, a water storage cabinet communicated with the water pumping motor is arranged at the lower end of the water pumping motor, and the steel bearing plate 6 is vertically arranged on the tissue culture frame 24 in a layered manner;

a coordinating device provided on the lower wall 23 for preventing the lower wall 23 from swinging;

damping means are provided on the lower wall 23 for performing damping when the tissue culture frame body 24 is run downward.

Thus, the lower wall 23 is prevented from swinging through the coordination equipment, the falling risk of the tissue culture seedlings on the tissue culture frame main body is prevented, vibration reduction can be performed when the tissue culture frame 24 runs downwards through the vibration reduction equipment, and the application life is prolonged.

In a preferred but non-limiting embodiment of the utility model, the coordination device comprises 4 turning pieces 9, 4 lead screws 21 and 4 sheet-shaped top pieces 26, wherein the lower ends of the 4 turning pieces 9 are fixedly connected with the lower end of the lower wall 23, the 4 lead screws 21 are respectively connected with screw openings formed in the 4 turning pieces 9 in a threaded manner, and the upper ends of the 4 sheet-shaped top pieces 26 are respectively connected with the lower ends of the 4 lead screws 21.

Thus, the screw rod 21 is rotated, the rotation of the screw rod 21 pulls the sheet-shaped top piece 26 to vertically run, and the sheet-shaped top piece 26 is attached to the ground surface, so that the lower wall 23 can be prevented from swinging, and the falling risk of tissue culture seedlings on the tissue culture frame body is prevented.

In a preferred but non-limiting embodiment of the utility model, the shape of the corner piece 9 is a right-angle fold.

In a preferred but non-limiting embodiment of the present utility model, the vibration damping device includes 4 vertical through rods 8, 4 pins 7 and 4 dampers 22, wherein the lower ends of the 4 vertical through rods 8 are respectively fixedly connected with four vertices of the upper end of the lower wall 23, the outer surfaces of the 4 pins 7 are respectively in clearance fit with the inner surfaces of the vertical through rods 8, the lower ends of the 4 dampers 22 are respectively fixedly connected with the inner surfaces of the lower ends of the 4 vertical through rods 8, and the upper ends of the 4 dampers 22 are respectively fixedly connected with the lower ends of the 4 pins 7.

Thus, when the tissue culture frame is operated downwards, the lower end of the tissue culture frame 24 is connected with the pin 7, the operation traction pin 7 of the tissue culture frame 24 is operated towards the inside of the vertical through rod 8, and vibration reduction is performed when the tissue culture frame 24 is operated downwards through the damper 22, so that the service life is prolonged.

In a preferred but non-limiting embodiment of the utility model, one side of the lower wall 23 is fixedly connected to a traction bar 2 adapted to push the frame 24 of the tissue culture frame to perform the operation.

This way the entire execution of the operation of the lifting platform can be facilitated via the traction bar 2.

In a preferred but non-limiting embodiment of the utility model, the inner surfaces of the two sides of the vertical through rod 8 are provided with strip-shaped guide openings, the two sides of the pin 7 are fixedly connected with the guide sheet 10, and one side of the guide sheet 10 is in clearance fit with the inner surfaces of the strip-shaped guide openings.

Thus, the pin 7 can be stopped by the strip-shaped guide opening and the guide piece 10.

In a preferred but non-limiting embodiment of the utility model, the traction bar 2 is sleeved with a plastic cylinder 3 for increasing friction.

In a preferred but non-limiting embodiment of the utility model, the outer surface of the plastic cylinder 3 for friction increase is textured.

This way friction can be increased when the traction bar 2 is held manually via the plastic tube 3.

In a preferred but non-limiting embodiment of the utility model, the inoculated tissue culture seedlings are placed on the upper wall of the steel bearing plate 6, and the full spectrum cold light lamp is arranged on the lower wall of the steel bearing plate 6.

In a preferred but non-limiting embodiment of the utility model, a full spectrum luminescent lamp is hinged to the lower wall of the steel carrier plate 6.

The illumination of the plant illumination can be automatically adjusted by rotating the full spectrum luminescence in a hinged mode.

The hydraulic piston 5 is operated by pumping water in the water storage tank to the hydraulic piston 5 through the water pumping motor to enable the hydraulic piston 5 to operate.

When the tissue culture frame 24 runs to the position of the pit and depression on the road surface and some casters 4 with brakes are not attached to the ground surface, the screw rod 21 is manually rotated, the screw rod 21 rotates to drive the sheet-shaped top piece 26 to vertically run, so that the sheet-shaped top piece 26 is attached to the ground surface, the lower wall 23 can be prevented from swinging, the falling risk of tissue culture seedlings on the tissue culture frame is prevented, the 4 sheet-shaped top pieces 26 can be naturally attached to the ground surface, the stability of the tissue culture seedlings on the tissue culture frame is improved, the lifting is performed by the tissue culture frame 24 at the upper end of the X-shaped lifting rod 25 pulled by the hydraulic piston 5, the lower end of the tissue culture frame 24 is connected with the pin 7 when the tissue culture frame runs downwards, the running pulling pin 7 of the tissue culture frame 24 runs towards the inside of the vertical through rod 8, the vibration reduction is performed when the tissue culture frame 24 runs downwards by the vibration absorber 22, the service life is prolonged, and the tissue culture frame can be suitable for running by the traction strip 2 because the traction strip 2 is arranged.

The beneficial effects of the utility model are as follows:

the screw rod is rotated, so that the vertical operation of the sheet-shaped top piece is pulled by the rotation of the screw rod, and the sheet-shaped top piece is attached to the ground surface, thereby preventing the lower wall from swinging and preventing the falling risk of the tissue culture seedlings on the frame body of the tissue culture frame; the lower end of the tissue culture frame body is connected with the pin when the tissue culture frame body runs downwards, the running traction pin of the tissue culture frame body runs towards the inside of the vertical through rod, and vibration reduction is performed when the tissue culture frame body runs downwards through the damper, so that the application life is prolonged; because the traction bar is arranged, the whole operation of the lifting platform can be conveniently executed through the traction bar; the structure is compact, the lower wall is prevented from swinging through the coordination equipment, the falling risk of the tissue culture seedlings on the tissue culture frame body is prevented, vibration reduction can be performed when the tissue culture frame body runs downwards through the vibration reduction equipment, and the application life is prolonged.

While the present utility model has been described by way of examples, it will be understood by those skilled in the art that the present disclosure is not limited to the examples described above, and various changes, modifications and substitutions can be made without departing from the scope of the present utility model.

Claims (10)

1. A multifunctional plant tissue culture rack, comprising:

the device comprises a hydraulic piston, a lower wall, a tissue culture frame body, a steel bearing disc and an X-shaped lifting rod, wherein inoculated tissue culture seedlings are placed on the steel bearing disc, the 4 vertexes of the lower end of the lower wall are fixedly connected with casters with brakes, the casters are suitable for the tissue culture frame body to operate, the X-shaped lifting rod is arranged on the lower wall, the tissue culture frame body is arranged on the X-shaped lifting rod, the hydraulic piston is arranged on the X-shaped lifting rod and used for pulling the X-shaped lifting rod to operate upwards or downwards, a water pumping motor communicated with the hydraulic piston is arranged in the lower wall, the lower end of the water pumping motor is provided with a water storage cabinet communicated with the water pumping motor, and the steel bearing disc is vertically arranged on the tissue culture frame body in a layered manner;

the coordination device is arranged on the lower wall and used for preventing the lower wall from swinging;

and the vibration reduction device is arranged on the lower wall and used for performing vibration reduction when the tissue culture frame body runs downwards.

2. The multifunctional plant tissue culture frame according to claim 1, wherein the coordination device comprises 4 bent pieces, 4 lead screws and 4 sheet-shaped top pieces, the lower ends of the 4 bent pieces are fixedly connected with the lower end of the lower wall, the 4 lead screws are respectively connected with screw openings formed in the 4 bent pieces in a threaded manner, and the upper ends of the 4 sheet-shaped top pieces are respectively fixedly connected with the lower ends of the 4 lead screws.

3. The multifunctional plant tissue culture rack of claim 2, wherein the shape of the bent piece is a right-angle folded ruler.

4. The multifunctional plant tissue culture frame according to claim 1, wherein the vibration reduction device comprises 4 vertical through rods, 4 pins and 4 dampers, the lower ends of the 4 vertical through rods are respectively fixedly connected with four vertexes of the upper end of the lower wall, the outer surfaces of the 4 pins are respectively in clearance fit with the inner surfaces of the vertical through rods, the lower ends of the 4 dampers are respectively fixedly connected with the inner surfaces of the lower ends of the 4 vertical through rods, and the upper ends of the 4 dampers are respectively fixedly connected with the lower ends of the 4 pins.

5. The multifunctional plant tissue culture rack according to claim 1, wherein a traction bar suitable for pushing the frame body of the tissue culture rack to perform operation is fixedly connected to one side of the lower wall.

6. The multifunctional plant tissue culture frame according to claim 1, wherein the inner surfaces of two sides of the vertical through rod are provided with strip-shaped guide openings, two sides of the pin are fixedly connected with guide pieces, and one side of each guide piece is in clearance fit with the inner surface of each strip-shaped guide opening.

7. The multifunctional plant tissue culture rack of claim 1, wherein the traction bar is sleeved with a plastic cylinder for increasing friction.

8. The multifunctional plant tissue culture rack according to claim 7, wherein the outer surface of the plastic cylinder for increasing friction is textured.

9. The multifunctional plant tissue culture rack of claim 1, wherein the inoculated tissue culture seedlings are placed on the upper wall of the steel bearing plate, and the full spectrum cold light lamp is arranged on the lower wall of the steel bearing plate.

10. The multifunctional plant tissue culture rack of claim 1, wherein the lower wall of the steel carrying tray is hinged with a full spectrum cold light lamp.