CN221934214U - A cell separation device for cell research - Google Patents

Abstract

The utility model relates to the field of cell separation technology, and discloses a cell separation device for cell research, including a separation box, a discharge mechanism and a cleaning mechanism are arranged at the bottom of the separation box, a feed pipe is sealed and connected to the top wall of the separation box, a support mechanism, a heating mechanism and a control cabinet are arranged on the separation box, a second separation cylinder and a first separation cylinder are arranged inside the separation box, the second separation cylinder and the first separation cylinder are both hollow cylinders with openings facing upwards, the second separation cylinder is located inside the first separation cylinder, and the feed pipe corresponds to the inside of the second separation cylinder. The product is injected into the second separation cylinder through the feed pipe, and the product is purified through a first separation membrane. The purified product will enter the interior of the first separation cylinder through the first separation membrane, and the first separation cylinder will purify the purified product again, thereby improving the purification effect. In addition, the first separation cylinder and the second separation cylinder can be rotated by a transmission mechanism, thereby improving the purification speed.

Description

A cell separation device for cell research

Technical Field

The utility model relates to the technical field of cell separation, in particular to a cell separation device for cell research.

Background Art

After searching the publication (announcement) number: CN215975852U, a cell separation device for cell research is disclosed, including a separation mechanism, a filtering mechanism and a temperature display, wherein the filtering mechanism is located on the right side of the separation mechanism, and the temperature display is located on the left side of the separation mechanism, the filtering mechanism includes a purification box, a hot and cold air blower is fixedly connected to the right side of the purification box, an air inlet pipe is fixedly connected to the outlet of the hot and cold air blower, a filter plate is fixedly connected to the inner side of the purification box, a fixed curved plate is fixedly connected to the inner bottom wall and the inner top wall of the purification box, an activated carbon adsorption plate is movably connected between the opposite sides of the two fixed curved plates, and an air collecting hood is fixedly connected to the inner side of the purification box.

During use of the above invention, the entire device is first driven to rotate by rotating electrons, and electronic components are arranged on the device. Working in an environment where rotation generates centrifugal force for a long time will increase the risk of damage to the electronic components. In addition, the separation holes of the separation box and the separation basket are both arranged at the bottom of both. The centrifugal force generated by the rotation not only accelerates the separation effect, but also affects the separation speed.

To this end, we propose a cell separation device for cell research.

Utility Model Content

The utility model mainly solves the technical problems existing in the above-mentioned prior art and provides a cell separation device for cell research.

In order to achieve the above-mentioned purpose, the utility model adopts the following technical scheme: a cell separation device for cell research, including a separation box, a discharge mechanism and a cleaning mechanism are arranged at the bottom of the separation box, a feed pipe is sealed and connected to the top wall of the separation box, a support mechanism, a heating mechanism and a control cabinet are arranged on the separation box, a second separation cylinder and a first separation cylinder are arranged inside the separation box, the second separation cylinder and the first separation cylinder are both hollow cylinders with openings facing upwards, the second separation cylinder is located inside the first separation cylinder, the feed pipe corresponds to the inside of the second separation cylinder, and the outer wall of the second separation cylinder is provided with a first separation membrane A second separation membrane is arranged on the outer wall of the first separation cylinder, and the mesh number of the second separation membrane is smaller than that of the first separation membrane. A connecting drum is rotatably installed on the bottom wall of the first separation cylinder cavity, and the connecting drum is fixedly installed on the bottom wall of the second separation cylinder. The connecting drum is rotatably installed on the top wall of the separation box, and a connecting rotating rod is rotatably installed inside the connecting drum through a bearing, and the connecting rotating rod is fixedly installed on the bottom wall of the first separation cylinder cavity. Slag discharge pipes are arranged at the bottom of the first separation cylinder and the second separation cylinder, and solenoid valves are arranged on the two slag discharge pipes. Transmission mechanisms are arranged on the connecting drum and the connecting rotating rod.

Preferably, the transmission mechanism includes a mounting frame, which is fixedly mounted on the top wall of the separation box. The mounting frame is L-shaped, and a driving motor is fixedly mounted on the upper wall of the mounting frame. The output end of the driving motor is connected to a transmission rotating rod, and the outer walls of the transmission rotating rod and the connecting rotating rod are fixedly mounted with transmission gears. The two transmission gears are meshingly connected, and a transmission belt is provided on the outer wall of the transmission rotating rod and the connecting rotating drum through a pulley sleeve.

Preferably, the top wall of the separation box cavity is provided with a first slot and a second slot at positions corresponding to the first separation cylinder and the second separation cylinder, the upper outer wall of the first separation cylinder is movably inserted into the interior of the first slot, and the upper outer wall of the second separation cylinder is movably inserted into the interior of the second slot.

Preferably, the first separation cylinder and the first slot are adapted to each other, the second separation cylinder and the second slot are adapted to each other, and sliding balls are movably mounted on the top walls of the first separation cylinder and the second separation cylinder, and the upper outer walls of the two sliding balls are in sliding contact with the top walls of the first slot and the second slot respectively.

Preferably, the support mechanism comprises four groups of support legs, and the four groups of support legs are all fixedly mounted on the outer wall of the separation box, and the four groups of support legs are distributed in an equicircular arc state.

Preferably, the discharging mechanism comprises a conveyor, which comprises a conveyor belt, a transmission roller and a transmission motor. The outer wall of the conveyor belt is provided with filter holes, and a water pump is fixedly installed on the front wall of the conveyor.

Preferably, the input end of the water pump is sealedly connected to the front wall of the conveyor, the output end of the water pump is sealedly connected to a drain pipe, and one end of the drain pipe away from the water pump is sealedly connected to the top wall of the separation box.

Beneficial Effects

The utility model provides a cell separation device for cell research, which has the following beneficial effects:

(1) A cell separation device for cell research. During use, the utility model injects a product into the second separation cylinder through a feed pipe, purifies the product through a first separation membrane, and the purified product passes through the first separation membrane into the first separation cylinder. The first separation cylinder purifies the purified product again, thereby improving the purification effect. In addition, the first separation cylinder and the second separation cylinder can be rotated by a transmission mechanism, thereby improving the purification speed.

(2) A cell separation device for cell research. During use, when the first separation cylinder and the second separation cylinder are rotating, they will rotate inside the first card slot and the second card slot respectively. With the cooperation of the two sets of sliding balls, the wear between the separation box and the first card slot and between the second separation cylinder and the second card slot can be reduced. When cleaning, the water inside the conveyor 16 is pumped out by the water pump 17 and discharged into the second separation cylinder 3 through the drain pipe 18. At the same time, the solenoid valves on the two residue discharge pipes 5 are opened, and the residue will follow the water through the bottom of the separation box 1 and flow onto the conveyor belt of the conveyor 16. The water will enter the interior of the conveyor 16 again through the filter hole and can be recycled, which saves resources.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 is a perspective view of the utility model as a whole;

FIG2 is a cutaway perspective view of a separation box of the present invention;

FIG. 3 is an enlarged view of point A in FIG. 2 .

Legend: 1. Separation box; 2. First separation cylinder; 3. Second separation cylinder; 4. Connecting drum; 5. Slag discharge pipe; 6. Connecting rotating rod; 7. Mounting frame; 8. Driving motor; 9. Transmission rotating rod; 10. Transmission gear; 11. Transmission belt; 12. First slot; 13. Second slot; 14. Sliding ball; 15. Support leg; 16. Conveyor; 17. Water pump; 18. Drain pipe.

DETAILED DESCRIPTION

A cell separation device for cell research, as shown in Figures 1-3, includes a separation box 1, a discharge mechanism and a cleaning mechanism are arranged at the bottom of the separation box 1, a feed pipe is sealed and connected to the top wall of the separation box 1, a support mechanism, a heating mechanism and a control cabinet are arranged on the separation box 1, all of which are prior art and will not be described in detail here, a second separation cylinder 3 and a first separation cylinder 2 are arranged inside the separation box 1, the second separation cylinder 3 and the first separation cylinder 2 are both hollow cylinders with openings facing upwards, the second separation cylinder 3 is located inside the first separation cylinder 2, the feed pipe corresponds to the inside of the second separation cylinder 3, the outer wall of the second separation cylinder 3 is provided with a first separation membrane, and the first A second separation membrane is arranged on the outer wall of the separation cylinder 2, and the mesh number of the second separation membrane is smaller than that of the first separation membrane. A connecting drum 4 is rotatably installed on the bottom wall of the cavity of the first separation cylinder 2, and the connecting drum 4 is fixedly installed on the bottom wall of the second separation cylinder 3. The connecting drum 4 is rotatably installed on the top wall of the separation box 1, and a connecting rotating rod 6 is rotatably installed inside the connecting drum 4 through a bearing, and the connecting rotating rod 6 is fixedly installed on the bottom wall of the cavity of the first separation cylinder 2. A slag discharge pipe 5 is arranged at the bottom of the first separation cylinder 2 and the second separation cylinder 3, and solenoid valves are arranged on the two slag discharge pipes 5. A transmission mechanism is arranged on the connecting drum 4 and the connecting rotating rod 6.

The transmission mechanism includes a mounting frame 7, which is fixedly mounted on the top wall of the separation box 1. The mounting frame 7 is L-shaped, and a driving motor 8 is fixedly mounted on the upper side wall of the mounting frame 7. The output end of the driving motor 8 is connected to a transmission rotating rod 9. The outer walls of the transmission rotating rod 9 and the connecting rotating rod 6 are fixedly mounted with a transmission gear 10. The two transmission gears 10 are meshed and connected. A transmission belt 11 is provided on the outer wall of the transmission rotating rod 9 and the connecting rotating drum 4 through a pulley sleeve.

A first card slot 12 and a second card slot 13 are provided on the top wall of the separation box 1 at positions corresponding to the first separation cylinder 2 and the second separation cylinder 3. The upper outer wall of the first separation cylinder 2 is movably inserted into the interior of the first card slot 12, and the upper outer wall of the second separation cylinder 3 is movably inserted into the interior of the second card slot 13.

The first separation cylinder 2 and the first slot 12 are adapted to each other, the second separation cylinder 3 and the second slot 13 are adapted to each other, and sliding balls 14 are movably installed on the top walls of the first separation cylinder 2 and the second separation cylinder 3, and the upper outer walls of the two sliding balls 14 are in sliding contact with the top walls of the first slot 12 and the second slot 13 respectively.

The supporting mechanism comprises four groups of supporting legs 15 , which are all fixedly mounted on the outer wall of the separation box 1 , and are distributed in an equicircular arc state.

The discharge mechanism includes a conveyor 16 , which includes a conveyor belt, a transmission roller and a transmission motor. The outer wall of the conveyor belt is provided with filtering holes, and a water pump 17 is fixedly installed on the front side wall of the conveyor 16 .

The input end of the water pump 17 is sealed to the front wall of the conveyor 16 , and the output end of the water pump 17 is sealed to a drain pipe 18 . One end of the drain pipe 18 away from the water pump 17 is sealed to the top wall of the separation box 1 .

The working principle of this utility model:

During use of the utility model, the product is injected into the second separation cylinder 3 through the feed pipe, the product is purified by the first separation membrane, the purified product passes through the first separation membrane into the first separation cylinder 2, the first separation cylinder 2 will purify the purified product again, thereby improving the purification effect. In addition, the first separation cylinder 2 and the second separation cylinder 3 can be rotated by the transmission mechanism.

During use of the utility model, when the first separation cylinder 2 and the second separation cylinder 3 rotate, they will rotate inside the first slot 12 and the second slot 13 respectively. With the cooperation of the two sets of sliding balls 14, the wear between the separation box 1 and the first slot 12 and the second separation cylinder 3 and the second slot 13 can be reduced. When cleaning, the water inside the conveyor 16 is pumped out by the water pump 17 and discharged into the second separation cylinder 3 through the drain pipe 18. At the same time, the solenoid valves on the two slag discharge pipes 5 are opened, and the residue will follow the water through the bottom of the separation box 1 and flow onto the conveyor belt of the conveyor 16. The water will enter the interior of the conveyor 16 again through the filter hole and can be recycled, which saves resources.

The above shows and describes the basic principle and main features of the utility model and the advantages of the utility model. Those skilled in the art should understand that the utility model is not limited by the above embodiments. The above embodiments and descriptions are only for explaining the principle of the utility model. Without departing from the spirit and scope of the utility model, the utility model may have various changes and improvements, which fall within the scope of the utility model to be protected. The scope of protection claimed by the utility model is defined by the attached claims and their equivalents.

Claims (7)

1. The utility model provides a cell separation device for cell research, includes separator box (1), and the bottom of separator box (1) is provided with bin outlet mechanism and wiper mechanism, and the top wall sealing connection of separator box (1) has the inlet pipe, is provided with supporting mechanism, heating mechanism and switch board on separator box (1), its characterized in that: the inside of separator box (1) is provided with second separating drum (3) and first separating drum (2), second separating drum (3) and first separating drum (2) are the hollow cylinder that the opening was up, second separating drum (3) are located the inside of first separating drum (2), the inside of inlet pipe and second separating drum (3) is corresponding, the outer wall of second separating drum (3) is provided with first separating membrane, the outer wall of first separating drum (2) is provided with the second separating membrane, the mesh number of second separating membrane is less than the mesh number of first separating membrane, connect rotary drum (4) are installed in the bottom wall rotation of first separating drum (2) intracavity, connect rotary drum (4) fixed mounting on the bottom wall of second separating drum (3), connect rotary drum (4) rotation and install on separator box (1) top wall, connect rotary drum (4) inside through the bearing rotation install connect bull stick (6), connect bull stick (6) fixed mounting at the bottom wall in first separating drum (2) intracavity, first separating drum (2) and second separating drum (3) are provided with sediment feed valve (5) and are connected with on two solenoid valve (5), it all to set up on two solenoid valve (5) and are connected.

2. The cell separation device for cell research according to claim 1, wherein: the transmission mechanism comprises a mounting frame (7), wherein the mounting frame (7) is fixedly installed on the top wall surface of the separation box (1), the mounting frame (7) is L-shaped, a driving motor (8) is fixedly installed on the upper side wall surface of the mounting frame (7), a transmission rotating rod (9) is connected with the output end of the driving motor (8) in a transmission manner, a transmission gear (10) is fixedly installed on the outer wall of the transmission rotating rod (9) and the outer wall of the connection rotating rod (6), the two transmission gears (10) are in meshed connection, and a transmission belt (11) is arranged on the outer wall of the transmission rotating rod (9) and the outer wall of the connection rotating cylinder (4) through a belt pulley sleeve.

3. The cell separation device for cell research according to claim 2, wherein: the top wall surface in the cavity of the separation box (1) corresponds to the positions of the first separation barrel (2) and the second separation barrel (3) and is provided with a first clamping groove (12) and a second clamping groove (13), the upper side outer wall of the first separation barrel (2) is movably clamped into the first clamping groove (12), and the upper side outer wall of the second separation barrel (3) is movably clamped into the second clamping groove (13).

4. The cell separation device for cell research according to claim 3, wherein: the first separating cylinder (2) is matched with the first clamping groove (12), the second separating cylinder (3) is matched with the second clamping groove (13), sliding balls (14) are movably mounted on the top wall surfaces of the first separating cylinder (2) and the second separating cylinder (3), and the upper side outer walls of the two sliding balls (14) are respectively in sliding contact with the top wall surfaces of the first clamping groove (12) and the second clamping groove (13).

5. The cell separation device for cell research according to claim 1, wherein: the supporting mechanism comprises four groups of supporting legs (15), the four groups of supporting legs (15) are fixedly arranged on the outer wall of the separation box (1), and the four groups of supporting legs (15) are distributed in an equal arc state.

6. The cell separation device for cell research according to claim 1, wherein: the discharging mechanism comprises a conveyor (16), the conveyor (16) comprises a conveying belt, a driving roller and a driving motor, the outer wall of the conveying belt is provided with a filtering hole, and the front side wall surface of the conveyor (16) is fixedly provided with a water suction pump (17).

7. The cell separation device for cell research according to claim 6, wherein: the input end of the water pump (17) is in sealing connection with the front side wall surface of the conveyor (16), the output end of the water pump (17) is in sealing connection with a drain pipe (18), and one end of the drain pipe (18) away from the water pump (17) is in sealing connection with the top wall surface of the separation box (1).