CN215574096U - Dehydration equipment for in vitro tissue treatment - Google Patents

Abstract

The utility model relates to the technical field of in-vitro tissue dehydration, in particular to dehydration equipment for in-vitro tissue treatment, and solves the problems that labor force is wasted due to manual operation shaking, manual shaking is not uniform enough, and the tissue is damaged due to sudden increase of force easily in the prior art. The utility model provides an separation is dewatering equipment for tissue processing, holds the frame including dehydration box, transparent case lid and tissue, the surface of case lid is provided with the device that rocks, the device that rocks includes the connecting box, connecting box and case lid fixed connection, the inside fixed mounting of connecting box has the motor, the output shaft surface of motor rotates the run-through connecting box, connecting box and case lid fixed connection, the inside fixed mounting of connecting box has the motor. The utility model can reduce the workload of operators by arranging the shaking device, and compared with manual work, the shaking device is more uniform and convenient for practical use.

Description

Dehydration equipment for in vitro tissue treatment

Technical Field

The utility model relates to the technical field of in vitro tissue dehydration, in particular to dehydration equipment for in vitro tissue treatment.

Background

In vitro is often used as a biological term in modern languages, and refers to a state in which a part of an organism is removed and dissociated outside the organism for various research purposes, and in the process of preparing an ex vivo pathological tissue, the ex vivo tissue needs to be dehydrated for the subsequent processing.

The separation tissue generally all puts the body in the splendid attire frame when dehydrating, carry out dehydration with the splendid attire frame again in immersing the dehydrating agent, generally need untimely shaking holding the frame at the in-process that carries out dehydration, and then make the tissue that holds the frame inside can with dehydrating agent intensive mixing and conveniently observe the state of separation tissue at the dehydration in-process, with judge whether to dewater completely, but artifical manual operation rocks the waste that can lead to the labour, and manual rocking is not even enough, make the sudden increase easily and lead to the tissue impaired.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide dehydration equipment for in-vitro tissue treatment, which solves the problems that labor force is wasted due to manual operation shaking, manual shaking is not uniform enough, and the tissue is damaged due to sudden increase of force easily in the prior art.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides an separation is dewatering equipment for tissue processing, holds the frame including dehydration tank, transparent case lid and tissue, the case lid sets up the top at the dehydration tank, the tissue holds the inside that the frame set up at the dehydration tank, the surface of case lid is provided with the pendulous device, the pendulous device includes the connecting box, connecting box and case lid fixed connection, the inside fixed mounting of connecting box has the motor, the output shaft surface of motor rotates and runs through the connecting box, motor output shaft port fixedly connected with adapter sleeve, the tissue holds the diapire fixedly connected with connecting axle of frame, the inside of dehydration tank rotates and is connected with the swivel becket, the bottom fixedly connected with gag lever post of frame is held to the tissue, the lateral wall fixed mounting of dehydration tank has two mounts, two the surface of mount all rotates and is connected with the buckle.

Preferably, the top of the connecting shaft is arranged to be a cross-shaped structure, and the bottom of the connecting sleeve is provided with a clamping groove matched with the connecting shaft in size.

Preferably, the surface of the rotating ring is uniformly provided with a limiting hole matched with the size of the limiting rod, and the tissue containing frame is clamped with the rotating ring by means of the limiting rod and the limiting hole.

Preferably, two handles are fixedly mounted at the top of the tissue containing frame, and rubber sleeves are fixedly mounted on the surfaces of the two handles.

Preferably, the diapire of dewatering box is provided with auxiliary device, auxiliary device includes bearing frame and elastic rod, the bottom and the dewatering box of bearing frame rotate to be connected, the surface block of bearing frame has the round bar, the top and the adapter sleeve looks block of round bar, the fixed surface of round bar installs two links, the holding tank has been seted up on the surface of link, and the inside rotation of holding tank is connected with the pivot, the fixed surface of pivot is connected with the connecting block, the surface cover of pivot has the hank spring, the both ends of hank spring respectively with holding tank and connecting block fixed connection, the lateral wall and the bottom of link all are provided with the brush board, the surface of connecting block is provided with three hornblocks, brush board and three hornblocks all are connected with link and connecting block respectively through the elastic rod.

Preferably, the elastic rod is composed of a spring and round blocks fixedly connected to two ends of the spring, a telescopic rod is arranged inside the spring, and two ends of the telescopic rod are fixedly connected with the two round blocks respectively.

Preferably, two right-angle sides of the triangular block are provided with bristles, and the two groups of bristles are respectively contacted with the bottom wall and the inner wall of the dewatering box.

The utility model has at least the following beneficial effects:

in use, in-vitro tissues are firstly placed in the tissue containing frame, then the tissue containing frame is placed in the dehydration box, a limiting rod at the bottom of the tissue containing frame is inserted into a limiting hole on the surface of the rotating ring for limiting, then the box cover is covered at the top of the dehydration box, a connecting sleeve at the port of an output shaft of the motor is clamped with a connecting shaft at the bottom wall of the tissue containing frame, then the box cover is fixed by utilizing a buckle, the motor in the connecting box is started at the moment, the motor drives the output shaft to rotate at a constant speed, the output shaft drives the connecting sleeve to rotate, the connecting sleeve is clamped with the connecting shaft, so as to drive the connecting shaft to rotate at a constant speed, the bottom of the tissue containing frame is clamped with the rotating ring through the limiting rod and the limiting hole, so that the tissue containing frame can rotate by utilizing the rotating ring, and then the in-vitro tissues placed on the surface of the tissue containing frame are quickly and fully mixed with the dehydrating agent under the action of the tissue containing frame, the in vitro tissue is convenient to carry out rapid dehydration treatment.

The utility model also has the following beneficial effects:

the tissue need to be cleaned after dehydration treatment, so as to avoid polluting the tissue of next batch of dehydration, at the moment, the tissue containing frame is taken out, then the port of the round bar is clamped into the inside of the bearing seat, the box cover is covered, the other end of the round bar is clamped with the connecting sleeve, when the round bar is installed, the rotating shaft and the twisting spring are utilized, two right-angle edges of the triangular block are respectively contacted with the bottom wall and the inner wall of the dehydration box, the specific operation is that the bottom edge of the triangular block is firstly contacted with the bottom wall of the dehydration box, then the round bar is pressed down, the triangular block is stressed, the elastic rod, the connecting block and the rotating shaft are utilized to rotate, the other right-angle edge of the triangular block is contacted with the inner wall, at the moment, the rotating shaft is under the action of the twisting spring, the rotating shaft is enabled to receive the restoring force of the twisting spring, thereby the connecting block, the elastic rod and the triangular block receive the acting force of downward rotation, thereby the two right-angle edges of the triangular block are respectively contacted with the bottom wall and the inner wall of the dehydration box, brush board and three hornblocks contact each other with the diapire and the inner wall of dewatering box under the effect of elastic rod, then starter motor, the motor drives the adapter sleeve and rotates, the adapter sleeve drives the round bar and rotates, the round bar utilizes the bearing frame to rotate, thereby it rotates to drive the link, the link drives the elastic rod, brush board and three hornblocks rotate, utilize the brush hair on brush board and three hornblocks surface to clear up the dewatering box, three hornblocks can clear up the diapire and the position of inner wall junction of dewatering box, through setting up auxiliary device, the convenience is cleared up the dewatering box.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a portion of the wobble assembly of the present invention;

FIG. 3 is a schematic view of a stop lever according to the present invention;

FIG. 4 is a schematic view of a bearing seat according to the present invention;

FIG. 5 is a schematic view of a part of the auxiliary device according to the present invention;

FIG. 6 is a schematic view of the structure of the elastic rod of the present invention;

fig. 7 is a schematic view of the construction of the wrap spring of the present invention.

In the figure: 1. a dewatering box; 2. a box cover; 3. organizing a containing frame; 4. a shaking device; 41. a connection box; 42. a motor; 43. connecting sleeves; 44. a handle; 45. a connecting shaft; 46. a rotating ring; 47. buckling; 48. a fixed mount; 49. a limiting rod; 5. an auxiliary device; 51. a connecting frame; 52. an elastic rod; 521. a round block; 522. a spring; 53. a round bar; 54. a bearing seat; 55. brushing the board; 56. a rotating shaft; 57. twisting a spring; 58. connecting blocks; 59. and (5) a triangular block.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Referring to fig. 1 to 7, a dehydration apparatus for in vitro tissue treatment includes a dehydration tank 1, transparent case lid 2 and tissue hold frame 3, case lid 2 sets up the top at dewatering box 1, the tissue holds the inside that frame 3 set up at dewatering box 1, the surface of case lid 2 is provided with rocking device 4, rocking device 4 includes connecting box 41, connecting box 41 and 2 fixed connection of case lid, the inside fixed mounting of connecting box 41 has motor 42, the output shaft surface of motor 42 rotates through connection box 41, motor 42 output shaft port fixedly connected with adapter sleeve 43, the tissue holds diapire fixedly connected with connecting axle 45 of frame 3, the inside of dewatering box 1 rotates and is connected with swivel 46, the tissue holds the bottom fixedly connected with gag lever post 49 of frame 3, the lateral wall fixed mounting of dewatering box 1 has two mounts 48, the surface of two mounts 48 all rotates and is connected with buckle 47.

The scheme has the following working processes:

In use, in vitro tissues are firstly placed in the tissue containing frame 3, then the tissue containing frame 3 is placed in the dewatering box 1, the limiting rod 49 at the bottom of the tissue containing frame 3 is inserted into the limiting hole on the surface of the rotating ring 46 for limiting, then the box cover 2 is covered on the top of the dewatering box 1, the connecting sleeve 43 at the port of the output shaft of the motor 42 is mutually clamped with the connecting shaft 45 at the bottom wall of the tissue containing frame 3, then the box cover 2 is fixed by the buckle 47, the motor 42 in the connecting box 41 is started at the moment, the motor 42 drives the output shaft to rotate at a constant speed, the output shaft drives the connecting sleeve 43 to rotate, the connecting sleeve 43 is mutually clamped with the connecting shaft 45, so as to drive the connecting shaft 45 to rotate at a constant speed, the bottom of the tissue containing frame 3 is mutually clamped with the rotating ring 46 through the limiting rod 49 and the limiting hole, so that the tissue containing frame 3 can rotate by using the rotating ring 46, and then make the tissue hold the separation tissue that frame 3 surfaces were placed hold under the effect of frame 3 and between the dehydrating agent carry out quick and intensive mixing, make things convenient for the separation tissue to carry out quick dehydration.

According to the working process, the following steps are known:

through setting up rocking device 4, can alleviate operator's work load, rock moreover more even for the manual work, make things convenient for in-service use.

Furthermore, the top of the connecting shaft 45 is designed to be a cross-shaped structure, and the bottom of the connecting sleeve 43 is provided with a clamping groove matched with the connecting shaft 45 in size.

Furthermore, the surface of the rotating ring 46 is uniformly provided with a limiting hole matched with the size of the limiting rod 49, and the tissue containing frame 3 is clamped with the rotating ring 46 by the limiting rod 49 and the limiting hole.

Further, two handles 44 are fixedly installed at the top of the tissue containing frame 3, and rubber sleeves are fixedly installed on the surfaces of the two handles 44.

Further, the diapire of dewatering box 1 is provided with auxiliary device 5, auxiliary device 5 includes bearing frame 54 and elastic rod 52, the bottom of bearing frame 54 and dewatering box 1 rotate to be connected, the surface block of bearing frame 54 has round bar 53, the top and the adapter sleeve 43 looks block of round bar 53, the fixed surface of round bar 53 installs two link 51, the holding tank has been seted up on link 51's surface, the inside rotation of holding tank is connected with pivot 56, the fixed surface of pivot 56 is connected with connecting block 58, the surface cover of pivot 56 has hank spring 57, the both ends of hank spring 57 respectively with holding tank and connecting block 58 fixed connection, link 51's lateral wall and bottom all are provided with brush board 55, the surface of connecting block 58 is provided with triangle block 59, brush board 55 and triangle block 59 all are connected with link 51 and connecting block 58 respectively through elastic rod 52.

Furthermore, the elastic rod 52 is composed of a spring 522 and round blocks 521 fixedly connected to two ends of the spring 522, an expansion rod is arranged inside the spring 522, and two ends of the expansion rod are respectively fixedly connected to the two round blocks 521.

Further, two right-angle sides of the triangular block 59 are provided with bristles, and the two groups of bristles are respectively in contact with the bottom wall and the inner wall of the dewatering box 1.

In summary, in use, isolated tissues are firstly placed in the tissue containing frame 3, then the tissue containing frame 3 is placed in the dewatering box 1, the limiting rod 49 at the bottom of the tissue containing frame 3 is inserted into the limiting hole on the surface of the rotating ring 46 for limiting, then the box cover 2 is covered on the top of the dewatering box 1, the connecting sleeve 43 at the port of the output shaft of the motor 42 is mutually clamped with the connecting shaft 45 at the bottom wall of the tissue containing frame 3, then the box cover 2 is fixed by the buckle 47, the motor 42 in the connecting box 41 is started at the moment, the motor 42 drives the output shaft to rotate at a constant speed, the output shaft drives the connecting sleeve 43 to rotate, the connecting sleeve 43 is mutually clamped with the connecting shaft 45, so as to drive the connecting shaft 45 to rotate at a constant speed, the bottom of the tissue containing frame 3 is mutually clamped with the rotating ring 46 through the limiting rod 49 and the limiting hole, so as to enable the tissue containing frame 3 to rotate by using the rotating ring 46, and then make the tissue hold the isolated tissue that the frame 3 surface was placed and carry on fast and intensive mixing under the effect that the tissue held the frame 3 with the dehydrating agent, make things convenient for isolated tissue to carry out the rapid dehydration, through setting up the rocking device 4, can alleviate operator's work load, and rock more evenly than the manual work, make things convenient for the in-service use, need wash dehydration box 1 after the tissue is dehydrated, in order to avoid polluting the tissue of next batch dehydration, hold the frame 3 to take out the tissue at this moment, then the port card of round bar 53 is gone into the inside of bearing frame 54, cover case lid 2, make the other end of round bar 53 and adapter sleeve 43 block each other, when installing round bar 53, utilize pivot 56 and hank spring 57, make two limits of triangular block 59 contact with bottom wall and inner wall of dehydration box 1 each other respectively, the concrete operation is to make the base of triangular block 59 contact with the bottom wall of dehydration box 1 at first, then the round bar 53 is pressed down, the triangular block 59 is forced to rotate by the elastic bar 52, the connecting block 58 and the rotating shaft 56, so that the other right-angle side of the triangular block 59 is contacted with the inner wall, at the moment, the rotating shaft 56 is under the action of the twisting spring 57, so that the rotating shaft 56 is under the restoring force of the twisting spring 57, the connecting block 58, the elastic bar 52 and the triangular block 59 are under the action of downward rotating force, so that the two right-angle sides of the triangular block 59 are respectively contacted with the bottom wall and the inner wall of the dewatering box 1, the brush 55 and the triangular block 59 are contacted with the bottom wall and the inner wall of the dewatering box 1 under the action of the elastic bar 52, then the motor 42 is started, the connecting sleeve 43 is driven by the motor 42 to rotate, the connecting sleeve 43 drives the round bar 53 to rotate, the round bar 53 is rotated by the bearing block 54, the connecting frame 51 is driven to rotate, the connecting frame 51 drives the elastic bar 52, the brush 55 and the triangular block 59 to rotate, the brush on the surfaces of the brush 55 and the triangular block 59 is used for cleaning the dewatering box 1, the position of the diapire that the three hornblocks 59 can clear up the drain box 1 and the inner wall junction is through setting up auxiliary device 5, conveniently clears up drain box 1, does not need artifical manual clearance moreover, and easy to assemble clearance structure, reinforcing practicality.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the utility model, but that various changes and modifications may be made without departing from the spirit and scope of the utility model, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides an isolated tissue handles uses dewatering equipment, includes dewatering box (1), transparent case lid (2) and tissue and holds frame (3), case lid (2) set up the top at dewatering box (1), the tissue holds frame (3) and sets up the inside at dewatering box (1), its characterized in that, the surface of case lid (2) is provided with pendulous device (4), pendulous device (4) include junction box (41), junction box (41) and case lid (2) fixed connection, the inside fixed mounting of junction box (41) has motor (42), the output shaft surface of motor (42) rotates and runs through junction box (41), motor (42) output shaft port fixed connection has adapter sleeve (43), the diapire fixed connection of tissue holding frame (3) has connecting axle (45), the inside rotation of dewatering box (1) is connected with swivel (46), the tissue holds bottom fixedly connected with gag lever post (49) of frame (3), the lateral wall fixed mounting of dehydration tank (1) has two mounts (48), two the surface of mount (48) all rotates and is connected with buckle (47).

2. The dehydration device for the treatment of the isolated tissue according to claim 1, wherein the top of the connecting shaft (45) is designed to be a cross-shaped structure, and the bottom of the connecting sleeve (43) is provided with a clamping groove matched with the connecting shaft (45) in size.

3. The dehydration equipment for the in vitro tissue treatment according to claim 1, wherein the surface of the rotating ring (46) is uniformly provided with a limiting hole with a size matched with that of the limiting rod (49), and the tissue containing frame (3) is clamped with the rotating ring (46) by means of the limiting rod (49) and the limiting hole.

4. The dehydration device for the ex-vivo tissue treatment according to claim 1, wherein two handles (44) are fixedly installed on the top of said tissue holding frame (3), and rubber sleeves are fixedly installed on the surfaces of both said handles (44).

5. The dehydration equipment for the treatment of in-vitro tissues according to claim 1, wherein an auxiliary device (5) is arranged on the bottom wall of the dehydration box (1), the auxiliary device (5) comprises a bearing seat (54) and an elastic rod (52), the bottom of the bearing seat (54) is rotatably connected with the dehydration box (1), a round rod (53) is clamped on the surface of the bearing seat (54), the top of the round rod (53) is clamped with a connecting sleeve (43), two connecting frames (51) are fixedly arranged on the surface of the round rod (53), an accommodating groove is formed in the surface of each connecting frame (51), a rotating shaft (56) is rotatably connected inside the accommodating groove, a connecting block (58) is fixedly connected on the surface of the rotating shaft (56), a twisting spring (57) is sleeved on the surface of the rotating shaft (56), and two ends of the twisting spring (57) are respectively and fixedly connected with the accommodating groove and the connecting block (58), the side wall and the bottom of link (51) all are provided with brush board (55), the surface of connecting block (58) is provided with triangle piece (59), brush board (55) and triangle piece (59) all are connected with link (51) and connecting block (58) respectively through elastic rod (52).

6. The dehydration device for the treatment of in-vitro tissue according to claim 5, characterized in that the elastic rod (52) is composed of a spring (522) and round blocks (521) fixedly connected to both ends of the spring (522), a telescopic rod is arranged inside the spring (522), and both ends of the telescopic rod are respectively fixedly connected to the two round blocks (521).

7. A dewatering apparatus for in vitro tissue treatment according to claim 5, characterized in that the two right-angled sides of the triangular block (59) are provided with bristles, and the two sets of bristles are in contact with the bottom wall and the inner wall of the dewatering box (1), respectively.

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