CN212767697U - Cell or blood sedimentation-preventing storage device - Google Patents

Abstract

The utility model discloses a cell or blood prevent deposiing storage device, the on-line screen storage device comprises a base, vertical loading board, keep apart the housing, many bayonet sockets bearing wheel and cover interior cold air circulation structure, the rear side of base is equipped with vertical loading board, the up end of base is equipped with keeps apart the housing, keep apart the housing be built by contract on the base and keep apart on the base and hold the cavity with vertical loading board, be equipped with on the base and hold the interior cold air circulation structure of cover of cavity intercommunication, be equipped with many bayonet sockets bearing wheel on the vertical loading board, the central authorities that many bayonet sockets bearing wheel are equipped with the pivot that runs through vertical loading board and extend backward, the rear end of pivot is connected with servo motor. The utility model discloses consider that cold air circulation structure makes to hold and produces constant temperature effect in the cavity in the cover, and cell or blood test tube content easily produce the sediment, and cell or blood test tube through many bayonet sockets bearing wheel circumference border upward buckle rotate round the pivot constant speed along with many bayonet sockets bearing wheel, prevent that cell or blood from producing the sediment in vitro.

Description

Cell or blood sedimentation-preventing storage device

Technical Field

The utility model relates to a cell or blood prevent deposiing the technical field of storage, especially relate to a cell or blood prevent deposiing storage device.

Background

The blood vessel matrix component is an effective component extracted from adipose tissues extracted from patients, contains a plurality of cells with repair function and cell groups formed by cell factor mixtures, has a plurality of clinical applications at present, and has the following advantages: 1. fresh extraction is carried out, and the cell activity is good; 2. the risk of cell variation after cell culture and passage is avoided without in vitro culture; 3. safety: the risk of bacterial or cellular contamination is small; 4. the returned cells are not modified in vitro, but useful adipose-derived stem cells are extracted from the discarded fat and then transfused into the human body, and the whole process is just like component transfusion. Fat particles are purified from fat tissues, SVF is prepared from partially purified fat particles, so a large amount of fat particles are mixed in SVF, and the situation of preparing SVF in large amount can occur in practical experiments, so the SVF is important for storing SVF.

SUMMERY OF THE UTILITY MODEL

To the problem that exists above, the utility model provides a cell or blood prevent deposiing storage device, the cold air circulation structure makes to hold the cavity in and produces constant temperature effect in considering the cover, and cell or blood test tube content easily produce the sediment, and cell or blood test tube through many bayonet sockets bearing wheel circumference border goes up the buckle rotates round the pivot constant speed along with many bayonet sockets bearing wheel, prevents to produce the sediment in cell or the blood test tube.

The technical scheme of the utility model lies in:

the utility model provides a cell or blood sedimentation-proof storage device, which comprises a base, a vertical bearing plate, an isolation housing, a multi-bayonet bearing wheel and an in-housing cold air circulation structure, wherein the rear side of the base is provided with the vertical bearing plate, the upper end surface of the base is provided with the isolation housing, the isolation housing covers the base and isolates a containing cavity from the vertical bearing plate on the base, the base is provided with the in-housing cold air circulation structure communicated with the containing cavity, the end surface of the vertical bearing plate in the containing cavity is provided with the multi-bayonet bearing wheel, the center of the multi-bayonet bearing wheel is provided with a rotating shaft extending backwards through the vertical bearing plate, the rear end of the rotating shaft is connected with a servo motor arranged on the rear end surface of the vertical bearing plate, and the in-housing cold air circulation structure circulates with external cold air to lead the containing cavity to generate a constant temperature effect, the rotating shaft is driven by the servo motor to drive the multi-bayonet bearing wheel to rotate, and the cell or blood test tube clamped on the circumferential edge of the multi-bayonet bearing wheel rotates around the rotating shaft at a constant speed along with the multi-bayonet bearing wheel so as to prevent the cell or blood from precipitating in the test tube.

Further, many bayonet sockets bear the wheel and include the opening cutting ferrule and bear the runner, the axis level that bears the runner extends around and, it is equipped with a plurality of and can correspond the opening cutting ferrule of cooperation buckle on cell or blood test tube to bear the equipartition on the circumference lateral wall of runner.

Furthermore, the left side and the right side of the upper end of the base are respectively provided with a butt joint clamping block, and the two butt joint clamping blocks are clamped on the left edge and the right edge of the lower end of the isolation housing.

Furthermore, the front side of the upper end face of the base is provided with a groove, so that the front side of the lower end of the isolation housing is clamped into the groove along with the left side and the right side of the isolation housing, and the isolation housing is clamped into the butt joint clamping blocks.

Furthermore, a plurality of locking fixture blocks are arranged on the inner wall of the isolation housing, and the locking fixture blocks are correspondingly buckled on the edge of the rear end face of the vertical bearing plate along with the fact that the isolation housing is buckled on the base from front to back.

Furthermore, the upper end of the vertical bearing plate is arc-shaped, the middle part of the upper end of the corresponding isolation housing is upwards protruded, and the isolation housing is of a curved plate-shaped structure.

Further, cold air circulation structure includes blast pipe, intake pipe and porous air guide block in the cover, be equipped with blast pipe and intake pipe on the base, the rear end of blast pipe and intake pipe stretches out and communicates with external air conditioning circulation system from the base rear end, the front end of blast pipe and intake pipe stretches into respectively and has the porous air guide block in holding the cavity and communicate respectively, and external air conditioning circulation system's the end of giving vent to anger, intake pipe, the return air end that holds cavity, blast pipe and external air conditioning circulation system communicate in proper order and form an air current return circuit to the stability that the cavity was held in the assurance keeps invariable.

Furthermore, the porous air guide blocks are of a shell-shaped structure, a plurality of through holes are formed in the upper end faces of the porous air guide blocks, a communication interface is arranged in the center of the lower end face of each porous air guide block, and the communication interfaces of the two porous air guide blocks are communicated with the exhaust pipe and the air inlet pipe respectively.

The utility model discloses owing to adopted above-mentioned technique, make it compare specific positive beneficial effect with prior art and be:

the utility model discloses consider when in-service use, because the cold air circulation structure passes through with external air conditioning circulation in the cover, make and hold and produce the constant temperature effect in the cavity, if cell or blood test tube if stew like this, just produce the sediment easily, so need let cell or blood test tube produce good upset action, also be exactly for the electric current of servo motor equidimension, it rotates to drive many bayonet sockets bearing wheel through servo motor drive pivot, cell or blood test tube of buckle rotate round the pivot constant speed along with many bayonet sockets bearing wheel on many bayonet sockets bearing wheel circumference border, in order to prevent cell or blood in vitro to produce the sediment, overall structure is compact, can get cell or blood test tube through taking off the isolation housing, it is convenient to take.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural view of the present invention without the isolation cover.

In the figure: 1-isolation housing, 2-butt joint fixture block, 3-base, 4-exhaust pipe, 5-servo motor, 6-air inlet pipe, 7-locking fixture block, 8-vertical bearing plate, 9-porous air guide block, 10-opening cutting sleeve, 11-bearing rotating wheel, 12-cell or blood test tube, and 13-rotating shaft.

Detailed Description

The first embodiment is as follows:

as shown in the attached drawings 1-2, the utility model provides a cell or blood sedimentation-proof storage device, mainly emphasizes on the clamping and rotating structure of a cell or blood test tube 12, comprising a base 3, a vertical bearing plate 8, an isolation housing 1, a multi-bayonet bearing wheel and an in-housing cold air circulation structure, wherein the base 3, the vertical bearing plate 8 and the isolation housing 1 are made of heat-isolated hard materials, such as plastics coated with heat-insulating materials, the rear side of the base 3 is provided with the vertical bearing plate 8, the upper end surface of the base 3 is provided with the isolation housing 1, the isolation housing 1 is covered on the base 3 and is isolated from the vertical bearing plate 8 to form a containing cavity on the base 3, the in-housing cold air circulation structure communicated with the containing cavity is arranged on the base 3, the end surface of the vertical bearing plate 8 in the containing cavity is provided with the multi-bayonet bearing wheel, the center of the multi-bayonet bearing wheel is provided with a rotating shaft 13, the rear end of the rotating shaft 13 is connected with a servo motor 5 arranged on the rear end face of the vertical bearing plate 8.

In the time of the in-service use, because the cold air circulation structure passes through with external cold air circulation in the cover, make and hold and produce the constant temperature effect in the cavity, cell or blood test tube 12 if the condition of stewing, just produce the sediment easily, so need let cell or blood test tube 12 produce good upset action, give servo motor 5 electric current of a certain size promptly, drive pivot 13 and drive many bayonet sockets through servo motor 5 and carry the wheel and rotate, cell or blood test tube 12 of buckle on many bayonet sockets carried wheel circumference border along with many bayonet sockets bear the wheel and rotate round pivot 13 constant speed, in order to prevent cell or blood test tube 12 in produce the sediment.

Wherein, the many bayonet sockets of cell or blood test tube 12 centre gripping bear the wheel, mainly include opening cutting ferrule 10 and bear runner 11, bear runner 11's axis level and extend around, bear runner 11's circumference lateral wall on the equipartition be equipped with a plurality of can correspond opening cutting ferrule 10 of cooperation buckle on cell or blood test tube 12.

The structure is mainly characterized in that the left side and the right side of the upper end of the base 3 are respectively provided with two butt joint clamping blocks 2, the two butt joint clamping blocks 2 are clamped on the left edge and the right edge of the lower end of the isolation housing 1, and correspondingly, the front side of the upper end surface of the base 3 is provided with a groove, so that the front side of the lower end of the isolation housing 1 is clamped into the groove along with the clamping of the left side and the right side into the butt joint clamping blocks 2; secondly, a plurality of locking fixture blocks 7 are arranged on the inner wall of the isolation housing 1, and the locking fixture blocks 7 are correspondingly buckled on the rear end face edge of the vertical bearing plate 8 along with the isolation housing 1 buckled on the base 3 from front to back.

In order to meet the structure that a plurality of cells or blood test tubes 12 are circularly distributed, the upper end of the vertical bearing plate 8 is arc-shaped, the middle part of the upper end of the isolation housing 1 correspondingly protrudes upwards, and the isolation housing 1 is of a curved plate-shaped structure.

Wherein, the cold air circulating structure in the cover comprises an exhaust pipe 4, an air inlet pipe 6 and a porous air guide block 9, the exhaust pipe 4 and the air inlet pipe 6 are arranged on the base 3, the rear ends of the exhaust pipe 4 and the air inlet pipe 6 extend out from the rear end of the base 3 and are communicated with an external cold air circulating system, the front ends of the exhaust pipe 4 and the air inlet pipe 6 respectively extend into the accommodating cavity and are respectively communicated with the porous air guide block 9, the air outlet end of the external cold air circulating system, the air inlet pipe 6, the accommodating cavity, the exhaust pipe 4 and the air return end of the external cold air circulating system are sequentially communicated to form an air flow loop so as to ensure that, and wherein porous air guide block 9 is the shell column structure and the up end is equipped with a plurality of through-holes, and porous air guide block 9's lower terminal surface center is equipped with the intercommunication interface, and the intercommunication interface of two porous air guide blocks 9 communicates with blast pipe 4 and intake pipe 6 respectively.

Claims (8)

1. A cell or blood anti-sedimentation storage device, characterized in that: the bearing device comprises a base, a vertical bearing plate, an isolation cover shell, a multi-bayonet bearing wheel and an in-cover cold air circulation structure, wherein the vertical bearing plate is arranged at the rear side of the base, the isolation cover shell is arranged on the upper end face of the base, the isolation cover shell covers the base and isolates an accommodating cavity from the vertical bearing plate on the base, the in-cover cold air circulation structure communicated with the accommodating cavity is arranged on the base, the end face, positioned in the accommodating cavity, of the vertical bearing plate is provided with the multi-bayonet bearing wheel, the center of the multi-bayonet bearing wheel is provided with a rotating shaft extending backwards through the vertical bearing plate, the rear end of the rotating shaft is connected with a servo motor arranged on the rear end face of the vertical bearing plate, and the in-cover cold air circulation structure circulates with external cold air to generate a constant temperature effect in the accommodating cavity and drives the rotating shaft to drive the multi-, the cell or blood test tube buckled on the circumferential edge of the multi-bayonet bearing wheel rotates around the rotating shaft at a constant speed along with the multi-bayonet bearing wheel so as to prevent the cell or blood test tube from generating sediment.

2. A cell or blood anti-sedimentation storage device according to claim 1, wherein: many bayonet sockets bear the wheel and include the opening cutting ferrule and bear the runner, the axis level that bears the runner extends around and, it is equipped with a plurality of and can correspond the opening cutting ferrule of cooperation buckle on cell or blood test tube to bear the equipartition on the circumference lateral wall of runner.

3. A cell or blood anti-sedimentation storage device according to claim 2, wherein: the left side and the right side of the upper end of the base are respectively provided with a butt joint clamping block, and the two butt joint clamping blocks are clamped on the left edge and the right edge of the lower end of the isolation housing.

4. A cell or blood anti-sedimentation storage device according to claim 3, wherein: the upper end face front side of the base is provided with a groove, so that the lower end front side of the isolation housing is clamped into the groove along with the left side and the right side of the isolation housing, and the isolation housing is clamped into the butt joint clamping blocks.

5. A cell or blood anti-sedimentation storage device according to claim 4, wherein: the inner wall of the isolation housing is provided with a plurality of locking fixture blocks, and the locking fixture blocks are correspondingly buckled on the rear end face edge of the vertical bearing plate along with the fact that the isolation housing is buckled on the base from front to back.

6. A cell or blood anti-sedimentation storage device according to claim 5, wherein: the upper end of the vertical bearing plate is arc-shaped, the middle part of the upper end of the isolation housing correspondingly protrudes upwards, and the isolation housing is of a curved plate-shaped structure.

7. A cell or blood anti-sedimentation storage device according to claim 6, wherein: cold air circulation structure includes blast pipe, intake pipe and porous air guide block in the cover, be equipped with blast pipe and intake pipe on the base, the rear end of blast pipe and intake pipe stretches out and communicates with external air conditioning cycle system from the base rear end, the front end of blast pipe and intake pipe stretches into respectively and communicates respectively in holding the cavity and have porous air guide block, and external air conditioning cycle system's the end of giving vent to anger, intake pipe, the return air end that holds cavity, blast pipe and external air conditioning cycle system communicate in proper order and form an air current return circuit to the stability in guaranteeing to hold the cavity keeps invariable.

8. A cell or blood anti-sedimentation storage device according to claim 7, wherein: the porous air guide block is of a shell-shaped structure, a plurality of through holes are formed in the upper end face of the porous air guide block, a communication interface is arranged in the center of the lower end face of the porous air guide block, and the communication interfaces of the two porous air guide blocks are communicated with an exhaust pipe and an air inlet pipe respectively.

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